Genetic systems that defend against foreign dna and uses thereof

ABSTRACT

Disclosed herein are microbial defense systems, which provide cells protection against phage infection and plasmid transformation. Methods of use of these defense systems for protecting cells from phage infection and plasmid transformation are also disclosed, wherein defense systems may be used individually or in combination. In addition, disclosed herein are methods of making cells that express these defense systems.

SEQUENCE LISTING STATEMENT

The instant application contains a “lengthy” Sequence Listing which has been submitted via CD-R in lieu of a printed paper copy, and is hereby incorporated by reference in its entirety. Said CD-R, recorded on May 15, 2018, are labeled “CRF”, “COPY 1—SEQUENCE LISTING PART,” “COPY 2—SEQUENCE LISTING PART” and “COPY 3—SEQUENCE LISTING PART,” respectively, and each contains only one identical 350,356,650 bytes file (P-573737-PC_SL.txt).

FIELD OF DISCLOSURE

Microbial defense systems providing host cells with anti-phage resistance or resistance against plasmid transformation, or both are disclosed. Methods of identifying these systems, and using these systems for example but not limited, for producing bacterial cells comprising defense systems, for producing food products, and for gene editing, are also disclosed.

BACKGROUND

Bacteria and archaea are often being attacked by viruses (phages), and as a result have developed multiple, sophisticated lines of active defense that can collectively be referred to as the prokaryotic “immune system”. Anti-phage defense strategies include restriction-modification (R/M) systems that target specific sequences on the invading phage, CRISPR-Cas that provides acquired immunity through memorization of past phage attacks, infection systems (Abi) that lead the cell to death or metabolic arrest upon infection, and additional systems whose mechanism of action is not yet clear such as BREX and DISARM. Different bacteria encode different sets of defense systems: CRISPR-Cas systems are found in about 40% of all sequenced bacteria, BREX appears in 10% of sequenced bacteria, and DISARM in about 1%. It has been suggested that many new, currently unknown defense systems reside in the genomes of non-model bacteria and archaea and await discovery.

Anti-phage defense systems have been found to be frequently physically clustered in bacterial and archaeal genomes such that, for example, genes encoding restriction enzymes commonly reside in the vicinity of genes encoding infection systems and other phage resistance systems. The observation that defense systems are clustered in genomic “defense islands” has led to the suggestion that genes of unknown function residing within such defense islands may also participate in anti-phage defense. Indeed, recent studies that anecdotally examined individual genes enriched next to known defense genes yielded the discovery of new systems that protect bacteria against phages.

Anti-phage defense systems are usually composed of multiple genes that work in concert to achieve defense—for example, cas1, cas2, cas3 and the cascade genes in type I CRISPR-Cas systems, and the R, M and S genes in type I restriction systems. Genes functioning within the same defense system are very frequently encoded on the same operon, and the gene order within the operon is highly conserved among distantly related organisms sharing the same system.

Some of these phage-resistance systems have been successfully adapted for biotechnological application; for example, the R/M and the CRISPR/Cas systems have been extensively used for genetic engineering purposes in general and gene therapy in particular.

A broad array of food products, commodity chemicals, and biotechnology products are manufactured industrially by large-scale bacterial fermentation of various substrates. Enormous amounts of bacteria are being cultivated each day in large fermentation vats, thus foreign nucleic acid contamination, for example phage contamination can rapidly bring fermentations to a halt and cause economic setbacks, and is therefore considered a serious threat in these industries. The dairy fermentation industry has openly acknowledged the problem of phages and has been working with academia and starter culture companies to develop defense strategies and systems to curtail the propagation and evolution of phages for decades. There remains a need to provide bacteria that can defend against nucleic acid molecules from foreign sources.

The use of defense systems, for example anti-phage may provide the necessary defense for bacteria in food, chemical, and biotechnology production. Thus, it would be advantageous to both the producers and the consumers to have bacteria resistant to nucleic acid molecules from foreign sources, for example with anti-phage, anti-conjugative element, and or anti-plasmid activity.

Disclosed herein are newly identified anti-phage defense systems, anti-conjugative element systems, and an anti-plasmid system that show strong protection against nucleic acid molecules from foreign sources. These systems could provide protection for fermentation bacteria against phages, for protection of bacteria against viruses, and may also provide biotechnological tools for use with prokaryotic and eukaryotic cells.

SUMMARY

In one aspect, disclosed herein is a method of protecting bacteria from foreign nucleic acid invasion comprising a step of introducing into the bacteria at least one defense system (a) to (o), said at least one defense system comprising:

-   -   (a) a Defense System IV comprising at least two different         polypeptide components selected from         -   a HamA polypeptide comprising a pfam08878 domain or a             DUF1837 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 12 rows             2-1782 columns H and I; and         -   a HamB polypeptide comprising COG1204 domain or a pfam00270             domain or a pfam00271 domain or any combination thereof, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 12 rows 2-1782 columns L and M; or     -   (b) a Defense System Ia comprising at least two different         polypeptide components selected from         -   a ZorA polypeptide comprising a pfam01618 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1830 columns J and K;         -   a ZorB polypeptide comprising a pfam13677 domain or a             pfam00691 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1830 columns N and O;         -   a ZorC polypeptide comprising a pfam15611 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1174 columns R and S; and         -   a ZorD polypeptide comprising a pfam00176 domain or a             pfam00271 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1174 columns V and W;         -   or     -   (c) a Defense System Ib comprising a ZorE polypeptide comprising         a pfam01844 domain or a COG3183 domain or a combination thereof,         or comprising an amino acid sequence having at least 80%         identity to a sequence selected from the group referenced in         Table 8 rows 1175-1830 columns Z and AA; and at least one other         polypeptide component selected from         -   a ZorA polypeptide comprising a pfam01618 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1830 columns J and K; and         -   a ZorB polypeptide comprising a pfam13677 domain or a             pfam00691 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1830 columns N and O; or     -   (d) a Defense System II comprising at least two different         polypeptide components selected from         -   a ThsA polypeptide comprising a pfam13289 domain or a             pfam14519 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 9 rows             2-2100 columns I and J; and         -   a ThsB polypeptide comprising a pfam13676 domain or a             pfam08937 domain or a pfam08357 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 9 rows 2-2100 columns M and N, Q and R,             U and V, Y and Z, and AC and AD; or     -   (e) a Defense System IIIa comprising at least two different         polypeptide components selected from         -   a DruA polypeptide comprising a DUF4338 domain or a             pfam14236 domain or a combination thereof; or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 10 rows             2-123 columns J and K, or a combination thereof;         -   a DruB polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns N and O;         -   a DruC polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns R and S;         -   a DruD polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns V and W; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (f) a Defense System IIIb comprising at least two different         polypeptide components selected from         -   a DruM polypeptide comprising a pfam00145 domain or a             COG0270 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 10 rows             124-295 columns AD and AE;         -   a DruF polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 124-295 columns AH and AI;         -   a DruG polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 124-295 columns AL and AM; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 column Z             and AA; or     -   (g) a Defense System IIIc comprising at least two different         polypeptide components selected from         -   a DruH polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 296-1343 columns AP and AQ; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (h) a Defense System V comprising a SduA polypeptide comprising         a pfam14082 domain or a pfam01939 domain or a combination         thereof, or comprising an amino acid sequence having at least         80% identity to a sequence selected from the group referenced in         Table 13 rows 2-1247 columns H and I; or     -   (i) a Defense System VI comprising at least two different         polypeptide components selected from         -   a GajA polypeptide comprising a pfam13175 domain or a             COG3593 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 14 rows             2-4599 columns H and I; and         -   a GajB polypeptide comprising a pfam04257 domain or a             pfam00580 domain or a pfam13361 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 14 rows 2-4599 columns L and M; or     -   (j) a Defense System VII comprising at least two different         polypeptide components selected from         -   a PtuA polypeptide comprising a pfam13304 domain or a             pfam02463 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 15 rows             2-12507 columns H and I; and         -   a PtuB polypeptide comprising pfam13395 domain or a pfam             01844 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 15 rows             2-2507 columns L and M; or     -   (k) a Defense System VIII comprising at least two different         polypeptide components selected from         -   a LmuA polypeptide comprising a pfam14130 domain or a             DUF4297 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 16 rows             2-698 columns H and I; and         -   a LmuB polypeptide comprising a pfam02463 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 16 rows 2-698 columns L and M; or     -   (l) a Defense System IX comprising at least two different         polypeptide components selected from         -   a KwaA polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 17 rows 2-935 columns H and I; and         -   a KwaB polypeptide comprising a pfam16162 domain or a             DUF4868 domain or a combination thereof; or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 17 rows             2-935 columns L and M; or     -   (m) a Defense System Xa comprising at least two different         polypeptide components selected from         -   a JetA polypeptide comprising a pfam11855 domain or a             DUF3375 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns J and K;         -   a JetB polypeptide comprising a pfam13835 domain or a             DUF4194 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns N and O;         -   a JetC polypeptide comprising a pfam13555 domain or a             pfam13558 domain or a COG4913 domain or any combination             thereof; or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 11 rows 2-2322 columns R and S; and         -   a JetD polypeptide comprising a pfam11795 domain or a             DUF3322 domain or a pfam09983 domain or a DUF2220 domain or             a COG4924 domain or any combination thereof, or comprising             an amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns V and W; or     -   (n) a Defense System Xb comprising at least two different         polypeptide components selected from         -   a JetA^(ii) polypeptide comprising a pfam09660 domain or a             DUF2397 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2323-2844 columns J and K;         -   a JetB^(ii) polypeptide comprising a pfam09661 domain or a             DUF2398 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2323-2844 columns N and O;         -   a JetC^(ii) polypeptide comprising a pfam13558 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 11 rows 2323-2844 columns R and S; and         -   a JetD^(ii) polypeptide comprising a pfam11796 domain or a             DUF3323 domain or a pfam09664 domain or a DUF2399 domain or             a combination thereof, or comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2323-2844 columns V and W;             or     -   (o) a Defense System Xc comprising at least two different         polypeptide components selected from         -   a JetA^(iii) polypeptide comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns and K;         -   a JetB^(iii) polypeptide comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns N and O;         -   a JetC^(iii) polypeptide comprising a COG1196 domain or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 11 rows 2845-3174 columns R and S; and         -   a JetD^(iii) polypeptide comprising a pfam09983 domain or a             pfam09664 domain or a DUF2220 or a DUF2399 domain or any             combination thereof, or comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns V and W;             or     -   (p) any combination of Defense Systems Ia-Xc (a)-(o);     -   wherein the introduction of said at least one defense system         results in the bacteria being protected from foreign DNA         invasion.

In a related aspect, methods of protecting bacteria from foreign nucleic acid invasion comprises protecting from phage infection, protection from plasmid transformation, or protecting from entry of conjugative elements, or any combination thereof. In another related aspect, a phage comprises a single stranded DNA (ssDNA) phage, a double stranded DNA (dsDNA) phage, a single stranded RNA (ssRNA) phage, a double stranded RNA (dsRNA) phage, a lytic phage, or a lysogenic phage, or a combination thereof. In another related aspect, at least one defense system comprises

-   -   (a) a Defense System IV comprising the HamA polypeptide and the         HamB polypeptide; or     -   (b) a Defense System Ia comprising the ZorA polypeptide, the         ZorB polypeptide, the ZorC polypeptide, and the ZorD         polypeptide; or     -   (c) a Defense System Ib comprising the ZorA polypeptide, the         ZorB polypeptide, and the ZorE polypeptide; or     -   (d) a Defense System II comprising the ThsA polypeptide, and the         ThsB polypeptide; or     -   (e) a Defense System IIIa comprising the DruA polypeptide, the         DruB polypeptide, the DruC polypeptide, the DruD polypeptide,         and the DruE polypeptide; or     -   (f) a Defense System IIIb comprising the DruM polypeptide, the         DruF polypeptide, the DruG polypeptide, and the DruE         polypeptide; or     -   (g) a Defense System IIIc comprising the DruH polypeptide and         the DruE polypeptide; or     -   (h) a Defense System V comprising the SduA polypeptide; or     -   (i) a Defense System VI comprising the GajA polypeptide and the         GajB polypeptide; or     -   (j) a Defense System VII comprising the PtuA polypeptide and the         PtuB polypeptide; or     -   (k) a Defense System VIII comprising the LmuA polypeptide and         the LmuB polypeptide; or     -   (l) a Defense System IX comprising the KwaA polypeptide and the         KwaB polypeptide; or     -   (m) a Defense System Xa comprising the JetA polypeptide, the         JetB polypeptide, the JetC polypeptide, and the JetD         polypeptide; or     -   (n) a Defense System Xb comprising the JetA^(ii) polypeptide,         the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the         JetD^(ii) polypeptide; or     -   (o) a Defense System Xc comprising the JetA^(iii) polypeptide,         the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the         JetD^(iii) polypeptide; or     -   (p) any combination of Defense Systems Ia-Xc (a)-(o).

In another related aspect, defense systems disclosed herein may be encoded by a nucleic acid sequence, wherein

-   -   (a) said Defense System IV is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 12, rows 2-1782, columns G, P, and Q or the nucleic             acid sequence set forth in SEQ ID NO: 4; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the HamA polypeptide and             HamB polypeptide as disclosed herein;     -   (b) said Defense System Ia is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 8 rows 2-1174 columns G, AD, and AE or the nucleic             acid sequence set forth in SEQ ID NO: 14; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the ZorA polypeptide, the             ZorB polypeptide, the ZorC polypeptide, and ZorD polypeptide             as disclosed herein;     -   (c) said Defense System Ib is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 8 rows 1175-1830 columns G, AD, and AE or set forth             in SEQ ID NO: 15; or a nucleic acid sequence encoding the at             least two different polypeptide sequences as disclosed             herein; or         -   a nucleic acid sequence encoding the ZorA polypeptide, the             ZorB polypeptide, and ZorE polypeptide as disclosed herein;     -   (d) said Defense System II is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 9 rows 2-2100 columns G, AG, and AH or set forth in             the nucleic acid sequence set forth in SEQ ID NO: 10 or SEQ             ID NO: 11; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the ThsA polypeptide and             the ThsB polypeptide as disclosed herein;     -   (e) said Defense System IIIa is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 10 rows 2-123 columns G, AT, and AU or set forth in             SEQ ID NO: 16; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the DruA polypeptide, the             DruB polypeptide, the DruC, the DruD, and the DruE             polypeptide as disclosed herein;     -   (f) said Defense System IIIb is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 10 rows 124-295 columns G, AT, AU; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the DruM polypeptide, the             DruF polypeptide, the DruG polypeptide, and the DruE             polypeptide as disclosed herein;     -   (g) said Defense System IIIc is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 10 rows 296-1343 columns G, AT, and AU; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the DruH polypeptide and             the DruE polypeptide as disclosed herein;     -   (h) said Defense System V is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 13, rows 2-1247, columns H and J; or         -   a nucleic acid sequence encoding the SduA polypeptide as             disclosed herein;     -   (i) said Defense System VI is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 14, rows 2-4599, columns G, P, and Q or the             sequences set forth in SEQ ID NO: 5 and SEQ ID NO: 6; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the GajA polypeptide and             the GajB polypeptide as disclosed herein;     -   (j) said Defense System VII is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 15, rows 2-2507, columns G, P, and Q or the             sequences set forth in SEQ ID NO: 12 and SEQ ID NO: 13; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the Ptu polypeptide and the             PtuB polypeptide as disclosed herein;     -   (k) said Defense System VIII is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 16, rows 2-698, columns G, P, and Q or the             sequences set forth in SEQ ID NO: 7 and SEQ ID NO: 8; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the LmuA polypeptide and             LmuB polypeptide as disclosed herein;     -   (l) said Defense System IX is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 17, rows 2-935, columns G, P, and Q or the sequence             set forth in SEQ ID NO: 3; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the KwaA polypeptide and             the KwaB polypeptide as disclosed herein;     -   (m) said Defense System Xa is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 11, rows 2-2322, columns G, Z, and AA or the             sequence set forth in SEQ ID NO: 17; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the JetA polypeptide, the             JetB polypeptide, the JetC polypeptide, and the JetD             polypeptide as disclosed herein;     -   (n) said Defense System Xb is encoded by         -   a nucleic acid sequence having at least 80% homology to a             sequence selected from the group referenced in Table 11,             rows 2323-2844, columns G, Z, and AA or the sequence set             forth in SEQ ID NO: 18; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the JetA^(ii) polypeptide,             the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and             the JetD^(ii) polypeptide as disclosed herein;     -   (o) said Defense System Xc is encoded by         -   a nucleic acid sequence selected from the group referenced             in Table 11, rows 2845-3174, columns G, Z, and AA or the             sequence set forth in SEQ ID NO: 19; or         -   a nucleic acid sequence encoding the at least two different             polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the JetA^(iii) polypeptide,             the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and             the JetD^(iii) polypeptide as disclosed herein.

In another related aspect, methods disclosed herein comprise use of a defense system as disclosed or use of a combination of defense systems wherein

-   -   (a) for said Defense system IV, said HamA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 12, rows 2-1782, columns H and J, or         -   said HamB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 12, rows 2-1782,             columns L and N, or a combination thereof;     -   (b) for said Defense system Ia, said ZorA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 8 rows 2-1830 columns J and L,         -   said ZorB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 2-1830             columns N and P,         -   said ZorC polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 2-1174             columns R and T, or         -   said ZorD polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 2-1174             columns V and X, or a combination thereof;     -   (c) for said Defense system Ib, said ZorA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 8 rows 2-1830 columns J and L,         -   said ZorB polypeptide is encoded by a nucleic acid sequence             selected from the group Table 8 rows 2-1830 columns N and P,         -   said ZorE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 1175-1830             columns Z and AB, or         -   a combination thereof;     -   (d) for said Defense system II, said ThsA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 9 rows 2-2100 columns I and K,         -   said ThsB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 9 rows 2-2100             columns M and O, Q and S, U and W, Y and AA, and AC and AE,             or         -   a combination thereof;     -   (e) for said Defense system IIIa, said DruA polypeptide is         encoded by a nucleic acid sequence selected from the group         referenced in Table 10 rows 2-123 columns J and L, or         -   said DruB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-123             columns N and P, or         -   said DruC polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-123             columns R and T, or         -   said DruD polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-123             columns V and X, or         -   said DruE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-1343             columns Z and AB, or         -   a combination thereof;     -   (f) for said Defense system IIIb, said DruM polypeptide is         encoded by a nucleic acid sequence selected from the group         referenced in Table 10 rows 124-295 columns AD and AF, or         -   said DruF polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 124-295             columns AH and AJ, or         -   said DruG polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 124-295             columns AL and AN, or         -   said DruE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-1343             columns Z and AB, or         -   a combination thereof;     -   (g) for said Defense system IIIc, said DruH polypeptide is         encoded by a nucleic acid sequence selected from the group         referenced in Table 10 rows 296-1343 columns AP and AR, or         -   said DruE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-1343             columns Z and ZB, or a combination thereof;     -   (h) for said Defense system V, said SduA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 13; rows 2-1247, columns H and J;     -   (i) for said Defense system VI, said GajA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 14, rows 2-4599, columns H and J, or         -   said GajB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 14, rows 2-4599,             columns L and N, or a combination thereof;     -   (j) for said Defense system VII, said PtuA polypeptide is         encoded by a nucleic acid sequence selected from the group         referenced in Table 15, rows 2-2507, columns H and J, or         -   said PtuB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 15, rows 2-2507,             columns L and N, or a combination thereof;     -   (k) for said Defense system VIII, said LmuA polypeptide is         encoded by a nucleic acid sequence selected from the group         referenced in Table 16, rows 2-698, columns H and J, or         -   said LmuB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 16, rows 2-698,             columns L and N, or a combination thereof;     -   (l) for said Defense system IX, said KwaA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 17, rows 2-935, columns H and J, or         -   said KwaB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 17, rows 2-935,             columns L and N, or a combination thereof;     -   (m) for said Defense system Xa, said JetA polypeptide is encoded         by a nucleic acid sequence selected from the group referenced in         Table 11, rows 2-2322, columns J and L, or         -   said JetB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 11, rows 2-2322,             columns N and P, or         -   said JetC polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 11, rows 2-2322,             columns R and T, or         -   said JetD polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 11, rows 2-2322,             columns V and X, or         -   a combination thereof;     -   (n) for said Defense system Xb, said JetA^(ii) polypeptide is         encoded by a nucleic acid sequence selected from the group         referenced in Table 11, rows 2323-2844, columns J and L, or         -   said JetB^(ii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2323-2844, columns N and P, or         -   said JetC^(ii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2323-2844, columns R and T, or         -   said JetD^(ii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2323-2844, columns V and X, or         -   a combination thereof;     -   (o) for said Defense system Xc, said JetA^(iii) polypeptide is         encoded by a nucleic acid sequence selected from the group         referenced in Table 11, rows 2845-3174, columns J and L, or         -   said JetB^(iii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2845-3174, columns N and P, or         -   said JetC^(iii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2845-3174, columns R and T, or         -   said JetD^(iii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2845-3174, columns V and X, or         -   a combination thereof.

In another aspect, disclosed herein are defense systems encoded by a nucleic acid sequence, comprising at least one defense system (a)-(o), wherein said at least one defense system comprises

-   -   (a) a Defense System IV comprising at least two different         polypeptide components selected from         -   a HamA polypeptide comprising a pfam08878 domain or a             DUF1837 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 12 rows             2-1782 columns H and I; and         -   a HamB polypeptide comprising COG1204 domain or a pfam00270             domain or a pfam00271 domain or any combination thereof, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 12 rows 2-1782 columns L and M; or     -   (b) a Defense System Ia comprising at least two different         polypeptide components selected from         -   a ZorA polypeptide comprising a pfam01618 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1830 columns J and K;         -   a ZorB polypeptide comprising a pfam13677 domain or a             pfam00691 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1830 columns N and O;         -   a ZorC polypeptide comprising a pfam15611 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1174 columns R and S; and         -   a ZorD polypeptide comprising a pfam00176 domain or a             pfam00271 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1174 columns V and W;             -   or     -   (c) a Defense System Ib comprising a ZorE polypeptide comprising         a pfam01844 domain or a COG3183 domain or a combination thereof,         or comprising an amino acid sequence having at least 80%         identity to a sequence selected from the group referenced in         Table 8 rows 1175-1830 columns Z and AA; and at least one other         polypeptide component selected from         -   a ZorA polypeptide comprising a pfam01618 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1830 columns J and K; and         -   a ZorB polypeptide comprising a pfam13677 domain or a             pfam00691 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1830 columns N and O; or     -   (d) a Defense System II comprising at least two different         polypeptide components selected from         -   a ThsA polypeptide comprising a pfam13289 domain or a             pfam14519 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 9 rows             2-2100 columns I and J; and         -   a ThsB polypeptide comprising a pfam13676 domain or a             pfam08937 domain or a pfam08357 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 9 rows 2-2100 columns M and N, Q and R,             U and V, Y and Z, and AC and AD; or     -   (e) a Defense System IIIa comprising at least two different         polypeptide components selected from         -   a DruA polypeptide comprising a DUF4338 domain or a             pfam14236 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 10 rows             2-123 columns J and K, or a combination thereof;         -   a DruB polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns N and O;         -   a DruC polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns R and S;         -   a DruD polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns V and W; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (f) a Defense System IIIb comprising at least two different         polypeptide components selected from         -   a DruM polypeptide comprising a pfam00145 domain or a             COG0270 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 10 rows             124-295 columns AD and AE;         -   a DruF polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 124-295 columns AH and AI;         -   a DruG polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 124-295 columns AL and AM; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain,             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (g) a Defense System IIIc comprising at least two different         polypeptide components selected from         -   a DruH polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 296-1343 columns AP and AQ; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (h) a Defense System V comprising a SduA polypeptide comprising         a pfam14082 domain or a pfam01939 domain or a combination         thereof, or comprising an amino acid sequence having at least         80% identity to a sequence selected from the group referenced in         Table 13 rows 2-1247 columns H and I; or     -   (i) a Defense System VI comprising at least two different         polypeptide components selected from         -   a GajA polypeptide comprising a pfam13175 domain or a             COG3593 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 14 rows             2-4599 columns H and I; and         -   a GajB polypeptide comprising a pfam04257 domain or a             pfam00580 domain or a pfam13361 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 14 rows 2-4599 columns L and M; or     -   (j) a Defense System VII comprising at least two different         polypeptide components selected from         -   a PtuA polypeptide comprising a pfam13304 domain or a             pfam02463 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 15 rows             2-12507 columns H and I; and         -   a PtuB polypeptide comprising pfam13395 domain or a pfam             01844 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 15 rows             2-2507 columns L and M; or     -   (k) a Defense System VIII comprising at least two different         polypeptide components selected from         -   a LmuA polypeptide comprising a pfam14130 domain or a             DUF4297 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 16 rows             2-698 columns H and I; and         -   a LmuB polypeptide comprising a pfam02463 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 16 rows 2-698 columns L and M; or     -   (l) a Defense System IX comprising at least two different         polypeptide components selected from         -   a KwaA polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 17 rows 2-935 columns H and I; and         -   a KwaB polypeptide comprising a pfam16162 domain or a             DUF4868 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 17 rows             2-935 columns L and M; or     -   (m) a Defense System Xa comprising at least two different         polypeptide components selected from         -   a JetA polypeptide comprising a pfam11855 domain or a             DUF3375 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns J and K;         -   a JetB polypeptide comprising a pfam13835 domain or a             DUF4194 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns N and O;         -   a JetC polypeptide comprising a pfam13555 domain or a             pfam13558 domain or a COG4913 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 11 rows 2-2322 columns R and S; and         -   a JetD polypeptide comprising a pfam11795 domain or a             DUF3322 domain or a pfam09983 domain or a DUF2220 domain or             a COG4924 domain or any combination thereof, or comprising             an amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns V and W; or     -   (n) a Defense System Xb comprising at least two different         polypeptide components selected from         -   a JetA^(ii) polypeptide comprising a pfam09660 domain or a             DUF2397 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2323-2844 columns J and K;         -   a JetB^(ii) polypeptide comprising a pfam09661 domain or a             DUF2398 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2323-2844 columns N and O;         -   a JetC^(ii) polypeptide comprising a pfam13558 domain             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 11 rows 2323-2844 columns R and S; and         -   a JetD^(ii) polypeptide comprising a pfam11796 domain or a             DUF3323 domain or a pfam09664 domain or a DUF2399 domain or             a combination thereof, or comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2323-2844 columns V and W;             or     -   (o) a Defense System Xc comprising at least two different         polypeptide components selected from         -   a JetA^(iii) polypeptide comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns J and K;         -   a JetB^(iii) polypeptide comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns N and O;         -   a JetC^(iii) polypeptide comprising a COG1196 domain or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 11 rows 2845-3174 columns R and S; and         -   a JetD^(iii) polypeptide comprising a pfam09983 domain or a             pfam09664 domain or a DUF2220 or a DUF2399 domain or any             combination thereof, or comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns V and W;             or     -   (p) any combination of the Defense Systems Ia-Xc (a)-(o);     -   wherein said at least one defense system comprises a         non-naturally occurring combination of components.

In a related aspect, a defense system disclosed wherein

-   -   (a) said Defense System IV comprises the HamA polypeptide and         the HamB polypeptide; or     -   (b) said Defense System Ia comprises the ZorA polypeptide, the         ZorB polypeptide, the ZorC polypeptide, and the ZorD         polypeptide; or     -   (c) said Defense System Ib comprises the ZorA polypeptide, the         ZorB polypeptide, and the ZorE polypeptide; or     -   (d) said Defense System II comprises the ThsA polypeptide, and         the ThsB polypeptide; or     -   (e) said Defense System IIIa comprises the DruA polypeptide, the         DruB polypeptide, the DruC polypeptide, the DruD polypeptide,         and the DruE polypeptide; or     -   (f) said Defense System IIIb comprises the DruM polypeptide, the         DruF polypeptide, the DruG polypeptide, and the DruE         polypeptide; or     -   (g) said Defense System IIIc comprises the DruH polypeptide and         the DruE polypeptide; or     -   (h) said Defense System V comprises the SduA polypeptide; or     -   (i) said Defense System VI comprises the GajA polypeptide and         the GajB polypeptide; or     -   (j) said Defense System VII comprises the PtuA polypeptide and         the PtuB polypeptide; or     -   (k) said Defense System VIII comprises the LmuA polypeptide and         the LmuB polypeptide; or     -   (l) said Defense System IX comprises the KwaA polypeptide and         the KwaB polypeptide; or     -   (m) said Defense System Xa comprises the JetA polypeptide, the         JetB polypeptide, the JetC polypeptide, and the JetD         polypeptide; or     -   (n) said Defense System Xb comprises the JetA^(ii) polypeptide,         the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the         JetD^(ii) polypeptide; or     -   (o) said Defense System Xc comprises the JetA^(iii) polypeptide,         the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the         JetD^(iii) polypeptide.

In another related aspect, at least one defense system disclosed herein or a combination thereof, provides a host cell with resistance to foreign nucleic acid invasion. In another related aspect, the resistance to foreign nucleic acid invasion comprises resistance to at least one phage infection, or resistance to plasmid transformation, or resistance to entry of a conjugative element, or any combination thereof.

In another aspect, disclosed herein is a nucleic acid construct encoding an at least one defense system (a)-(o), said nucleic acid construct comprising

-   -   (a) a nucleic acid construct encoding a Defense System IV         comprising at least two different polypeptide components         selected from         -   a HamA polypeptide comprising a pfam08878 domain or a             DUF1837 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 12 rows             2-1782 columns H and I; and         -   a HamB polypeptide comprising COG1204 domain or a pfam00270             domain or a pfam00271 domain or any combination thereof, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 12 rows 2-1782 columns L and M; or     -   (b) a nucleic acid construct encoding a Defense System Ia         comprising at least two different polypeptide components         selected from         -   a ZorA polypeptide comprising a pfam01618 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1830 columns J and K;         -   a ZorB polypeptide comprising a pfam13677 domain or a             pfam00691 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1830 columns N and O;         -   a ZorC polypeptide comprising a pfam15611 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1174 columns R and S; and         -   a ZorD polypeptide comprising a pfam00176 domain or a             pfam00271 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1174 columns V and W;         -   or     -   (c) a nucleic acid construct encoding a Defense System Ib         comprising a ZorE polypeptide comprising a pfam01844 domain or a         COG3183 domain or a combination thereof, or comprising an amino         acid sequence having at least 80% identity to a sequence         selected from the group referenced in Table 8 rows 1175-1830         columns Z and AA; and at least one other polypeptide component         selected from         -   a ZorA polypeptide comprising a pfam01618 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 8 rows 2-1830 columns J and K; and         -   a ZorB polypeptide comprising a pfam13677 domain or a             pfam00691 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 8 rows             2-1830 columns N and O; or     -   (d) a nucleic acid construct encoding a Defense System II         comprising at least two different polypeptide components         selected from         -   a ThsA polypeptide comprising a pfam13289 domain or a             pfam14519 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 9 rows             2-2100 columns I and J; and         -   a ThsB polypeptide comprising a pfam13676 domain or a             pfam08937 domain or a pfam08357 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 9 rows 2-2100 columns M and N, Q and R,             U and V, Y and Z, and AC and AD; or     -   (e) a nucleic acid construct encoding a Defense System IIIa         comprising at least two different polypeptide components         selected from         -   a DruA polypeptide comprising a DUF4338 domain or a             pfam14236 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 10 rows             2-123 columns J and K, or a combination thereof;         -   a DruB polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns N and O;         -   a DruC polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns R and S;         -   a DruD polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 2-123 columns V and W; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (f) a nucleic acid construct encoding a Defense System IIIb         comprising at least two different polypeptide components         selected from         -   a DruM polypeptide comprising a pfam00145 domain or a             COG0270 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 10 rows             124-295 columns AD and AE;         -   a DruF polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 124-295 columns AH and AI;         -   a DruG polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 124-295 columns AL and AM; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (g) a nucleic acid construct encoding a Defense System IIIc         comprising at least two different polypeptide components         selected from         -   a DruH polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 10 rows 296-1343 columns AP and AQ; and         -   a DruE polypeptide comprising a pfam00270 domain or a             pfam00271 domain or a pfam09369 domain or a DUF1998 domain             or any combination thereof, or comprising an amino acid             sequence having at least 80% identity to a sequence selected             from the group referenced in Table 10 rows 2-1343 columns Z             and AA; or     -   (h) a nucleic acid construct encoding a Defense System V         comprising a SduA polypeptide comprising a pfam14082 domain or a         pfam01939 domain or a combination thereof, or comprising an         amino acid sequence having at least 80% identity to a sequence         selected from the group referenced in Table 13 rows 2-1247         columns H and I; or     -   (i) a nucleic acid construct encoding a Defense System VI         comprising at least two different polypeptide components         selected from         -   a GajA polypeptide comprising a pfam13175 domain or a             COG3593 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 14 rows             2-4599 columns H and I; and         -   a GajB polypeptide comprising a pfam04257 domain or a             pfam00580 domain or a pfam13361 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 14 rows 2-4599 columns L and M; or     -   (j) a nucleic acid construct encoding a Defense System VII         comprising at least two different polypeptide components         selected from         -   a PtuA polypeptide comprising a pfam13304 domain or a             pfam02463 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 15 rows             2-12507 columns H and I; and         -   a PtuB polypeptide comprising pfam13395 domain or a pfam             01844 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 15 rows             2-2507 columns L and M; or     -   (k) a nucleic acid construct encoding a Defense System VIII         comprising at least two different polypeptide components         selected from         -   a LmuA polypeptide comprising a pfam14130 domain or a             DUF4297 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 16 rows             2-698 columns H and I; and         -   a LmuB polypeptide comprising a pfam02463 domain, or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 16 rows 2-698 columns L and M; or     -   (l) a nucleic acid construct encoding a Defense System IX         comprising at least two different polypeptide components         selected from         -   a KwaA polypeptide comprising an amino acid sequence having             at least 80% identity to a sequence selected from the group             referenced in Table 17 rows 2-935 columns H and I; and         -   a KwaB polypeptide comprising a pfam16162 domain or a             DUF4868 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 17 rows             2-935 columns L and M; or     -   (m) a nucleic acid construct encoding a Defense System Xa         comprising at least two different polypeptide components         selected from         -   a JetA polypeptide comprising a pfam11855 domain or a             DUF3375 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns J and K;         -   a JetB polypeptide comprising a pfam13835 domain or a             DUF4194 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns N and O;         -   a JetC polypeptide comprising a pfam13555 domain or a             pfam13558 domain or a COG4913 domain or any combination             thereof, or comprising an amino acid sequence having at             least 80% identity to a sequence selected from the group             referenced in Table 11 rows 2-2322 columns R and S; and         -   a JetD polypeptide comprising a pfam11795 domain or a             DUF3322 domain or a pfam09983 domain or a DUF2220 domain or             a COG4924 domain or any combination thereof, or comprising             an amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2-2322 columns V and W; or     -   (n) a nucleic acid construct encoding a Defense System Xb         comprising at least two different polypeptide components         selected from         -   a JetA^(ii) polypeptide comprising a pfam09660 domain or a             DUF2397 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2323-2844 columns J and K;         -   a JetB^(ii) polypeptide comprising a pfam09661 domain or a             DUF2398 domain or a combination thereof, or comprising an             amino acid sequence having at least 80% identity to a             sequence selected from the group referenced in Table 11 rows             2323-2844 columns N and O;         -   a JetC^(ii) polypeptide comprising a pfam13558 domain             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 11 rows 2323-2844 columns R and S; and         -   a JetD^(ii) polypeptide comprising a pfam11796 domain or a             DUF3323 domain or a pfam09664 domain or a DUF2399 domain or             a combination thereof, or comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2323-2844 columns V and W;             or     -   (o) a nucleic acid construct encoding a Defense System Xc         comprising at least two different polypeptide components         selected from         -   a JetA^(iii) polypeptide comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns J and K;         -   a JetB^(iii) polypeptide comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns N and O;         -   a JetC^(iii) polypeptide comprising a COG1196 domain or             comprising an amino acid sequence having at least 80%             identity to a sequence selected from the group referenced in             Table 11 rows 2845-3174 columns R and S; and         -   a JetD^(iii) polypeptide comprising a pfam09983 domain or a             pfam09664 domain or a DUF2220 or a DUF2399 domain or any             combination thereof, or comprising an amino acid sequence             having at least 80% identity to a sequence selected from the             group referenced in Table 11 rows 2845-3174 columns V and W;             or     -   (p) any combination of nucleic acid constructs encoding a         Defense Systems Ia-Xc (a)-(o);     -   wherein each nucleic acid construct of each Defense System         (a)-(o) further comprises a regulatory element operably linked         to said construct comprising a cis-acting regulatory element for         directing expression of said nucleic acid sequence, or a         transmissible element for directing transfer of said nucleic         acid sequence from one cell to another, or a recombination         element for integrating said nucleic acid sequence into a genome         of a cell transfected with said construct, or an element         providing episomal maintenance of said construct within a cell         transfected with said construct, or any combination thereof.

In a related aspect, the expressed defense system comprises

-   -   (a) a Defense System IV comprising the HamA polypeptide, and the         HamB polypeptide; or     -   (b) a Defense System Ia comprising the ZorA polypeptide, the         ZorB polypeptide, the ZorC polypeptide, and the ZorD         polypeptide; or     -   (c) a Defense System Ib comprising the ZorA polypeptide, the         ZorB polypeptide, and the ZorE polypeptide; or     -   (d) a Defense System II comprising the ThsA polypeptide, and the         ThsB polypeptide; or     -   (e) a Defense System IIIa comprising the DruA polypeptide, the         DruB polypeptide, the DruC polypeptide, the DruD polypeptide,         and the DruE polypeptide; or     -   (f) a Defense System IIIb comprising the DruM polypeptide, the         DruF polypeptide, the DruG polypeptide, and the DruE         polypeptide; or     -   (g) a Defense System IIIc comprising the DruH polypeptide and         the DruE polypeptide; or     -   (h) a Defense System V comprising the SduA polypeptide; or     -   (i) a Defense System VI comprising the GajA polypeptide and the         GajB polypeptide; or     -   (j) a Defense System VII comprising the PtuA polypeptide and the         PtuB polypeptide; or     -   (k) a Defense System VIII comprising the LmuA polypeptide and         the LmuB polypeptide; or     -   (l) a Defense System IX comprising the KwaA polypeptide and the         KwaB polypeptide; or     -   (m) a Defense System Xa comprising the JetA polypeptide, the         JetB polypeptide, the JetC polypeptide, and the JetD         polypeptide; or     -   (n) a Defense System Xb comprising the JetA^(ii) polypeptide,         the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the         JetD^(ii) polypeptide; or     -   (o) a Defense System Xc comprising the JetA^(iii) polypeptide,         the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the         JetD^(iii) polypeptide.

In another related aspect, the nucleic acid construct disclosed herein, wherein

(a) said Defense System IV is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 12, rows 2-1782, columns G, P, and Q or the nucleic acid         sequence set forth in SEQ ID NO: 4; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the HamA polypeptide and HamB         polypeptide as disclosed herein;

(b) said Defense System Ia is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 8 rows 2-1174 columns G, AD, and AE or the nucleic acid         sequence set forth in SEQ ID NO: 14; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the ZorA polypeptide, the ZorB         polypeptide, the ZorC polypeptide, and ZorD polypeptide as         disclosed herein;

(c) said Defense System Ib is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 8 rows 1175-1830 columns G, AD, and AE or set forth in SEQ         ID NO: 15; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or         -   a nucleic acid sequence encoding the ZorA polypeptide, the             ZorB polypeptide, and ZorE polypeptide as disclosed herein;

(d) said Defense System II is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 9 rows 2-2100 columns G, AG, and AH or set forth in the         nucleic acid sequence set forth in SEQ ID NO: 10 or SEQ ID NO:         11; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the ThsA polypeptide and the         ThsB polypeptide as disclosed herein;

(e) said Defense System IIIa is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 10 rows 2-123 columns G, AT, and AU or set forth in SEQ ID         NO: 16; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the DruA polypeptide, the DruB         polypeptide, the DruC, the DruD, and the DruE polypeptide as         disclosed herein;

(f) said Defense System IIIb is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 10 rows 124-295 columns G, AT, AU; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the DruM polypeptide, the DruF         polypeptide, the DruG polypeptide, and the DruE polypeptide as         disclosed herein;

(g) said Defense System IIIc is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 10 rows 296-1343 columns G, AT, and AU; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the DruH polypeptide and the         DruE polypeptide as disclosed herein;

(h) said Defense System V is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 13; rows 2-1247, columns H and J; or     -   a nucleic acid sequence encoding the SduA polypeptide disclosed         herein;

(i) said Defense System VI is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 14, rows 2-4599, columns G, P, and Q or the sequences set         forth in SEQ ID NO: 5 and SEQ ID NO: 6; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the GajA polypeptide and the         GajB polypeptide as disclosed herein;

(j) said Defense System VII is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 15, rows 2-2507, columns G, P, and Q or the sequences set         forth in SEQ ID NO: 12 and SEQ ID NO: 13; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the Ptu polypeptide and the         PtuB polypeptide as disclosed herein;

(k) said Defense System VIII is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 16, rows 2-698, columns G, P, and Q or the sequences set         forth in SEQ ID NO: 7 and SEQ ID NO: 8; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the LmuA polypeptide and LmuB         polypeptide as disclosed herein;

(l) said Defense System IX is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 17, rows 2-935, columns G, P, and Q or the sequence set         forth in SEQ ID NO: 3; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the KwaA polypeptide and the         KwaB polypeptide as disclosed herein;

(m) said Defense System Xa is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 11, rows 2-2322, columns G, Z, and AA or the sequence set         forth in SEQ ID NO: 17; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the JetA polypeptide, the JetB         polypeptide, the JetC polypeptide, and the JetD polypeptide as         disclosed herein;

(n) said Defense System Xb is encoded by

-   -   a nucleic acid sequence having at least 80% homology to a         sequence selected from the group referenced in Table 11, rows         2323-2844, columns G, Z, and AA or the sequence set forth in SEQ         ID NO: 18; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the JetA^(ii) polypeptide, the         JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the         JetD^(ii) polypeptide as disclosed herein;

(o) said Defense System Xc is encoded by

-   -   a nucleic acid sequence selected from the group referenced in         Table 11, rows 2845-3174, columns G, Z, and AA or the sequence         set forth in SEQ ID NO: 19; or     -   a nucleic acid sequence encoding the at least two different         polypeptide sequences as disclosed herein; or     -   a nucleic acid sequence encoding the JetA^(iii) polypeptide, the         JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the         JetD^(iii) polypeptide as disclosed herein.

Further, in another related aspect, a nucleic acid construct disclosed herein comprises a nucleic acid construct wherein

-   -   (a) said HamA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 12, rows 2-1782,         columns H and J, or         -   said HamB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 12, rows 2-1782,             columns L and N, or         -   a combination thereof;     -   (b) said ZorA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 8 rows 2-1830         columns J and L,         -   said ZorB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 2-1830             columns N and P,         -   said ZorC polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 2-1174             columns R and T, or         -   said ZorD polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 2-1174             columns V and X, or         -   a combination thereof;     -   (c) said ZorA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 8 rows 2-1830         columns J and L,         -   said ZorB polypeptide is encoded by a nucleic acid sequence             selected from the group Table 8 rows 2-1830 columns N and P,         -   said ZorE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 8 rows 1175-1830             columns Z and AB, or         -   a combination thereof;     -   (d) said ThsA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 9 rows 2-2100         columns I and K,         -   said ThsB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 9 rows 2-2100             columns M and O, Q and S, U and W, Y and AA, and AC and AE,             or         -   a combination thereof;     -   (e) said DruA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 10 rows 2-123         columns J and L, or         -   said DruB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-123             columns N and P, or         -   said DruC polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-123             columns R and T, or         -   said DruD polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-123             columns V and X, or         -   said DruE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-1343             columns Z and AB, or         -   a combination thereof;     -   (f) said DruM polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 10 rows 124-295         columns AD and AF, or         -   said DruF polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 124-295             columns AH and AJ, or         -   said DruG polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 124-295             columns AL and AN, or         -   said DruE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-1343             columns Z and AB, or         -   a combination thereof;     -   (g) said DruH polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 10 rows 296-1343         columns AP and AR, or         -   said DruE polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 10 rows 2-1343             columns Z and AB, or         -   a combination thereof;     -   (h) said SduA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 13; rows 2-1247,         columns H and J;     -   (i) said GajA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 14, rows 2-4599,         columns H and J, or         -   said GajB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 14, rows 2-4599,             columns L and N, or         -   a combination thereof;     -   (j) said PtuA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 15, rows 2-2507,         columns H and J, or         -   said PtuB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 15, rows 2-2507,             columns L and N, or         -   a combination thereof;     -   (k) said LmuA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 16, rows 2-698,         columns H and J, or         -   said LmuB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 16, rows 2-698,             columns L and N, or         -   a combination thereof;     -   (l) said KwaA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 17, rows 2-935,         columns H and J, or         -   said KwaB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 17, rows 2-935,             columns L and N, or         -   a combination thereof;     -   (m) said JetA polypeptide is encoded by a nucleic acid sequence         selected from the group referenced in Table 11, rows 2-2322,         columns J and L, or         -   said JetB polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 11, rows 2-2322,             columns N and P, or         -   said JetC polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 11, rows 2-2322,             columns R and T, or         -   said JetD polypeptide is encoded by a nucleic acid sequence             selected from the group referenced in Table 11, rows 2-2322,             columns V and X, or         -   a combination thereof;     -   (n) said JetA^(ii) polypeptide is encoded by a nucleic acid         sequence selected from the group referenced in Table 11, rows         2323-2844, columns J and L, or         -   said JetB^(ii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2323-2844, columns N and P, or         -   said JetC^(ii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2323-2844, columns R and T, or         -   said JetD^(ii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2323-2844, columns V and X, or         -   a combination thereof;     -   (o) said JetA^(iii) polypeptide is encoded by a nucleic acid         sequence selected from the group referenced in Table 11, rows         2845-3174, column J and L, or         -   said JetB^(iii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2845-3174, columns N and O, or         -   said JetC^(iii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2845-3174, columns R and T, or         -   said JetD^(iii) polypeptide is encoded by a nucleic acid             sequence selected from the group referenced in Table 11,             rows 2845-3174, columns V and X, or         -   a combination thereof.

In another related aspect, disclosed herein is a nucleic acid construct wherein expression of said defense system from the nucleic acid construct in a host cells provides the host cell with resistance to foreign nucleic acid invasion. In another related aspect, resistance to foreign nucleic acid invasion comprises resistance to at least one phage infection, or resistance to plasmid transformation, or resistance to entry of a conjugation element, or any combination thereof.

In another aspect, disclosed herein is a transmissible genetic element or an expression vector comprising a nucleic acid construct as disclosed herein.

In another aspect, disclosed herein is an isolated cell expressing a nucleic acid construct as disclosed herein. In a related aspect, the cell comprises a gram-positive bacterium or a gram-negative bacterium. In another related aspect, the cell comprises resistance to foreign nucleic acid invasion. In still another related aspect, the resistance to foreign nucleic acid invasion comprises resistance to at least one phage infection, or reduced plasmid transformation efficiency, or resistance to entry of a conjugation element, or a combination thereof.

In another aspect, disclosed herein is a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product, and or a veterinary product comprising any defense system or combination of defense systems as disclosed herein, or the nucleic acid construct or combination of constructs as disclosed herein, or the transmissible genetic element as disclosed herein, or the isolated cell as disclosed herein.

In a related aspect, the defense system or combination of defense systems included in a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product, and or a veterinary product disclosed herein, comprises a combination of Defense Systems selected from Defense Systems Ia-Xc (a)-(o).

In another aspect, disclosed herein is a method of preparing a food, a food additive, a feed, a nutritional supplements, a probiotic supplement, a personal care product, a health care product or a veterinary product, the method comprising adding to the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product, or veterinary product at least one defense system as disclosed herein, or the nucleic acid construct as disclosed herein, or the transmissible genetic element disclosed herein, or the isolated cell disclosed herein.

In another aspect, disclosed herein is a method for identifying a defense system in a prokaryotic cell, comprising the steps of:

-   -   (a) selecting, in-silico, a family of genes that are         preferentially located in close proximity to a known         defense-related gene family present in a plurality of         prokaryotic genomes; and     -   (b) analyzing, in-silico, the DNA upstream and downstream of         said gene; and     -   (c) identifying, in-silico, a cassette of genes within the         upstream and downstream DNA analyzed in step (b) comprising said         gene of step (a), wherein said cassette of genes has conserved         synteny in said plurality of prokaryotic genomes.

In a related aspect, in a method of identifying a defense system, the gene of step (a), located in close proximity to a known defense related gene family, is within 10 genes upstream and or 10 genes downstream of the known defense related gene family.

In another aspect, disclosed herein is a method gene editing, said method comprising contacting a nucleic acid sequence comprising a gene to be edited with at least one polypeptide component of a defense system, wherein said defense system component comprises a component selected from the components of the defense system disclosed herein, wherein said method results in the gene being edited.

BRIEF DESCRIPTION OF THE DRAWINGS

The subject matter disclosed herein is particularly pointed out and distinctly claimed in the concluding portion of the specification. The defense systems described, however, both as to organization and method of operation, together with objects, features, and advantages thereof, may best be understood by reference to the following detailed description when read with the accompanying drawings in which:

FIGS. 1A-1C presents the strategy and initial results for the discovery of new anti-phage defense systems in defense islands. FIG. 1A illustrates the computational analysis employed for each pfam found to be enriched in defense islands. Pfams that are enriched in the vicinity of known defense genes are identified, and their neighboring genes are clustered based on sequence homology to identify conserved cassettes that represent putative defense systems. FIG. 1B presents a bar graph showing the tendency of protein families to occur next to defense genes. The genomic neighborhood for each member gene in each pfam is examined, and the fraction of member genes occurring in the vicinity (10 genes on each side) of one or more known defense genes is recorded. A set of 123 pfams known to participate in anti-phage defense (“positive set”) are represented in pink; the remaining 13,960 pfams analyzed in this study are shown in blue. FIG. 1C presents the neighborhood variability score for analyzed pfams. Scores represent the fraction of pfams members occurring in different defense neighborhoods out of total occurrences of pfam members. (Pink, the 123 positive pfams; blue, a set of 576 pfams that passed the 65% threshold for fraction of members occurring with defense genes in proximity.)

FIGS. 2A and 2B present the distribution of predicted functions for pfams genomically associated with known defense genes. FIG. 2A presents the pfams retrieved from prediction cycle #1. FIG. 2B presents the pfams retrieved from prediction cycle #2.

FIGS. 3A-3H show the flowchart and experimentally verified defense systems. (FIG. 3A) Flowchart of the experimental verification strategy. (FIG. 3B) Active defense systems cloned into B. subtilis. (FIG. 3C) Active defense systems cloned into E. coli. For FIGS. 3B and 3C, the fold protection was measured using serial dilution plaque assays, comparing the system-containing strain to a control strain that lacks the system and has an empty vector instead. Data represents average of 3 replicates (FIGS. 3E and 3F). Numbers below phage names represent phage genome size. On the right of FIGS. 3B and 3C, gene organization of the defense systems, with identified domains indicated (DUF, domain of unknown function). Gene sizes are drawn to scale, scale bar represents 400 amino acids. FIG. 3D presents the initial data demonstrating that the ZORYA type I system provides protection against phages as evaluated by serial dilution plaque assay. E. coli MG1655 strain (control) and E. coli MG1655 strain (control) transfected with the ZORYA system I of ZORYA locus of Escherichia coli (E. coli) E24377A and challenged with the indicated phages (phage T4, phage T7, phage lambda vir t [an obligatory lytic mutant of phage lambda], SECphi27, SECphi17, and SECphi18). Columns represent serial 10-fold dilutions of the initial phage stock concentration. The leftmost column represents 10⁻² (100 fold) dilution, the second column from the right represents 10⁻³ (1000 fold dilution), and so on until the leftmost column that represents 10 million fold dilution. FIG. 3E presents the efficiency of plating (EOP) of Bacillus phages on defense systems cloned into B. subtilis BEST7003. Data represent PFU/ml values, average of 3 replicates; error bars are STD. When two representations of the same system are indicated (e.g. Thoeris I and Thoeris II), order of systems is as in FIG. 3B. FIG. 3F presents efficiency of plating (EOP) of coliphages on defense systems cloned into E. coli MG1655. Data represent PFU/ml values, average of 3 replicates; error bars are STD. Order of defense systems in each graph is as in FIG. 3C. FIG. 3G presents efficiency of plating (EOP) of Bacillus phage SpBeta on defense systems mutated in individual genes. Data represent PFU/ml values of SpBeta phage infecting WT and mutated systems. Average of 3 replicates; error bars are STD. Gene deletion results for systems Zorya, Thoeris, Wadjet and Druantia appear in FIGS. 4, 5, 7, and 6, respectively. Gene deletion attempts for the Kiwa system were not successful. FIG. 3H presents distribution of defense systems in sequenced microbial genomes. For each system, phyla in which instances of the system were detected are indicated. Top left pie chart represents the entire set of microbial genomes analyzed, and is shown in order to provide a reference for the phylogenetic distribution of the species whose genomes were sequenced. Data on individual instances of each system are found in Tables 4 and 8-18.

FIGS. 4A-4J present the identified members of the Type I and Type II ZORYA defense systems and analysis thereof. FIG. 4A shows schematic representative instances of the Type I ZORYA system and their defense island context. In the last four embodiments, genes known to be involved in defense are orange. Mobilome genes are in dark grey. RM—restriction modification; TA—toxin-antitoxin; Abi—abortive infection; Wadjet and DISARM are other defense systems identified herein. FIG. 4B presents the domain organization of the Type I ZORYA system comprising zorA (A), zorB (B), zorC (C) and zorD (D). FIG. 4C presents a schematic of the ZORYA type I defense system locus of Escherichia coli (E. coli) E24377A used for cloning. Numbers represent position on the E. coli E24377A genome. Specifically, nucleotides 298890-307639 of the reverse strand were cloned into the E. coli MG1655 genome (SEQ ID NO: 14). FIG. 4D shows multiple schematic representative instances of the Type II ZORYA system and their defense island context. Genes known to be involved in defense are orange. Mobilome genes are in dark grey. RM—restriction modification; TA—toxin-antitoxin; Druantia is another defense systems identified herein. FIG. 4E presents the domain organization of the Type II ZORYA system comprising zorA (A), zorB (B), and zorE (E). Domain organization of zorA and zorB are as in FIG. 4B. FIG. 4F presents a model of the flagellum base. The position of the MotAB complex is indicated. FIG. 4G presents percent phage infection of Zorya-containing cells in solid cultures. FIG. 4H presents optical density (O.D.) versus time post infection of phage infected Zorya Defense System Ia-containing bacteria in liquid cultures. FIG. 4I presents optical density (O.D.) versus time post infection of phage infected Zorya Defense System Ib-containing bacteria in liquid cultures. FIG. 4J presents the efficiency of plating (EOP) of phage SECphi27 infecting WT Type I ZORA, deletion strains, and strains with point mutations. Data represent PFU/ml, average of 3 replicates with error bars representing STD. ZorA:T147A/S184A and ZorB:D26N are predicted to abolish proton flux; ZorC:E400A/H443A are mutations in two conserved residues in pfam15611 (“EH domain”) whose function is unknown; ZorD:D730A/E731A are mutations in the Walker B motif, predicted to abolish ATP hydrolysis.

FIGS. 5A-5E present the identified members of the Thoeris system and analysis thereof. FIG. 5A shows schematic representative instances of the Thoeris (SIR2-TIR) system and their defense island context. In each row of the top set of systems identified, the red gene is the thsA gene (Sir2-domain; pfam13289) gene; the immediately downstream gene is the thsB gene (TIR domain; pfam08937 or pfam13676) gene. In the last four systems presented, the Thoeris genes thsA (containing NAD-binding domain) and thsB (TIR domain) are marked dark and light green, respectively. Genes known to be involved in defense are orange. Mobilome genes are in dark grey. RM, restriction-modification; TA, toxin-antitoxin; Abi, abortive infection. FIG. 5B presents schematic representations of two Thoeris systems identified and analyzed in this study, shown to protect against myophages. Locus tag accessions are indicated for the individual genes. FIG. 5C presents the efficiency of plating (EOP) results of phage SBSphiJ infection with WT and mutated versions of the B. amyloliquefaciens Y2 Thoeris (FIG. 5B top set) or B. cereus MSX-D12 Thoeris (FIG. 5B bottom set) cloned into B. subtilis BEST7003. Average of 3 replicates, error bars represent STD. FIG. 5D shows the initial results demonstrating that the Thoeris system (SIR2-TIR system) provides protection against phages as evaluated by plaque assay. Phage used were SBSphiC, SBSphiJ and SPO1. FIG. 5E presents predictions of the active site in ThsB polypeptide. Shown is an alignment of the ThsB gene from Bacillus amyloliquefaciens Y2 to SARM1 and MliB. Numbers in the alignment represent position in the protein sequence. Positions of verified active sites for MliB and SARM1, and the predicted active site of ThsB, are indicated.

FIGS. 6A-6C present the identified members of the Druantia system and analysis thereof. FIG. 6A presents representative instances of Druantia types I, II and III and their defense island context. The system is characterized by a gene encoding a large (1800aa-2100aa) polypeptide with a DUF1998 domain (druE), preceded by 3, 2, or 1 genes encoding hypothetical proteins with no domain annotation, for Types I, II and III, respectively. In some Type I cases, a gene encoding a polypeptide with a pfam14236 (DUF4338) domain (druA gene; DruA polypeptide) is associated with the system. Type II systems are typically associated with a cytosine methylase gene (DruM). Genes known to be involved in defense are orange. Mobilome genes are in dark grey. RM, restriction-modification; TA, toxin-antitoxin; Zorya, a defense system identified in this study. FIG. 6B presents the Druantia systems that was cloned (Example 6) and experimentally shown to protect against coliphages. Locus tag accessions are indicated for the individual genes. FIG. 6C presents data showing gene deletions render the Druantia defense system inactive. DruA deletion was not tested due to technical reasons. Data represent EOP, average of 3 replicates; error bars are STD.

FIG. 7A-7C present the identified members of the Wadjet system and analysis thereof. The Wadjet system was shown to provide protection against plasmid transformation in B. subtilis. (FIG. 7A) Representative instances of the Wadjet system and their defense island context. Genes known to be involved in defense are orange. RM, restriction-modification; TA, toxin-antitoxin; Abi, abortive infection. (FIG. 7B) Domain organization of the three types of Wadjet. (FIG. 7C) Wadjet reduces plasmid transformation efficiency in B. subtilis. Wadjet systems were taken from B. cereus Q1 (Type I), Bacillus vireti LMG 21834 (Type II) and Bacillus thuringiensis serovar finitimus YBT-020 (Type III) (Table 4) and cloned into B. subtilis BEST7003. Gene deletions and point mutations are of the B. cereus Q1 Type I Wadjet. Transformation efficiency of plasmid pHCMC05 into Wadjet-containing strains is presented as a percentage of the transformation efficiency to B. subtilis BEST7003 carrying an empty vector instead of the Wadjet system. Average of 3 replicates; error bars represent STD.

DETAILED DESCRIPTION

In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the defense systems disclosed herein, including cells comprising these systems, methods of producing cells comprising these systems, methods of identifying the defense systems, and products, for example but not limited to food products or probiotic supplements, that may comprise these the defense systems. In some instances, well-known methods, procedures, and components have not been described in detail so as not to obscure the present disclosure.

The evolutionary pressure imposed by phage predation on bacteria has resulted in the development of both anti-phage bacterial resistance systems and counter-resistance mechanisms developed by phages. Harnessing the anti-phage bacterial mechanisms to improve industrial processes by e.g. curtailing the propagation and evolution of phages in fermentation vats in the manufacturing of food products, commodity chemicals, and biotechnology products is a standing goal in biological research. On the counter arm, properly formulated and applied phages or their defense mechanisms have sufficient potential to cure bacterial infections.

In some embodiments, disclosed herein are the defense systems, including but not limited to anti-phage defense systems, methods for producing and using such defense systems, and methods of countering such defense systems. In some embodiments, disclosed herein are defense systems that provide a host cell with resistance to foreign nucleic acid invasion. In some embodiments, a defense system described herein, provides the host cell with resistance to a foreign nucleic acid invasion, wherein the foreign nucleic acid invasion comprises resistance to at least one phage infection, or resistance to plasmid transformation, or a combination of resistance to at least one phage infection and resistance to plasmid transformation. In some embodiments, it is the combination of defense systems that provides a host cell with resistance to a foreign nucleic acid invasion.

Taken together, the disclosure presented herein of anti-phage defense systems or functional portions thereof may in some embodiments be used for conferring phage resistance in microbial cells. Bacteria comprising these anti-phage defense systems can be utilized for example in the dairy industry, where phages cause serious annual losses, as well as in other industries that rely on large-scale bacterial fermentation for biotechnological production. Alternatively, an agent able to antagonize a defense system may in some embodiments can be used as an antibiotic or in conjunction with known antibiotics.

In addition, embodiments disclosed herein include methods of use of defense systems for gene editing, for example but not limited to, for cloning and cutting a nucleic acid sequence leading to specific deletion of a gene, repair of a gene, or replacement of a gene.

Genetic Systems that Defend Against Foreign Nucleic Acid (DNA and RNA)

In some embodiments, disclosed herein is a genetic system that defends a host cell against foreign nucleic acid invasion. One skilled in the art would appreciate that defense against a foreign nucleic acid invasion may encompass, defending against entry of a foreign nucleic acid into the host cell, as well as, defending against the actions of a foreign nucleic acid that has entered the host cell. In some embodiments, defense against a foreign nucleic acid invasion comprises defense from phage infection. In some embodiments, defense against a foreign nucleic acid invasion comprises defense from plasmid transformation. In some embodiments, defense against a foreign nucleic acid invasion comprises defense against entry of a conjugative element. In some embodiments, defense against a foreign nucleic acid invasion comprises defense against any combination of phage infection, plasmid transformation, and entry of a conjugative element.

In some embodiments a foreign nucleic acid comprises a foreign DNA. In some embodiments a foreign nucleic acid comprises a foreign RNA.

In some embodiments, disclosed herein is a genetic system that defends against foreign DNA. (Tables 4, and 6-17) The skilled artisan would appreciate that as used herein the term “defense system” encompasses genetic systems that defend against foreign nucleic acid elements, including foreign DNA elements and foreign RNA elements.

In some embodiments, a defense system described herein functions as an anti-phage defense system, wherein the system provides a microbial cell resistance to phage infection. In some embodiments, a defense system described herein functions as an anti-phage defense system, wherein the system provides bacteria resistance to phage infection. In some embodiments, the defense system functions as an anti-plasmid transformation defense system, wherein the system reduces the transformation of a host cell by plasmid vectors. In some embodiments, the defense system functions as an anti-plasmid transformation defense system, wherein the system reduces the transformation of a microbial cell by plasmid vectors. In some embodiments, the defense system functions as an anti-plasmid transformation defense system, wherein the system reduces the transformation of bacteria by plasmid vectors.

The skilled artisan would appreciate that a defense system may in some embodiments, be introduced into a microbial cell in which such a defense system is not present. In some embodiments, a defense system may be introduced into a bacterium cell in which such a defense system is not present. In some embodiments, a defense system may be introduced into a microbial cell in which such a defense system is not functional. In some embodiments, a defense system may be introduced into a bacterium cell in which such a defense system is not functional. In some embodiments, a defense system may be introduced into a microbial cell in which such a defense system is not expressed. In some embodiments, a defense system may be introduced into a bacterium cell in which such a defense system is not expressed.

In some embodiments, introduction of a defense system into a microbial cell in which such a defense system is not present, provides the microbial cell resistance to foreign nucleic acid invasion. In some embodiments, integration of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to foreign nucleic acid invasion. In some embodiments, integration of functional components of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to foreign nucleic acid invasion. In some embodiments, integration of at least one functional component of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to foreign nucleic acid invasion.

In some embodiments, introduction of a defense system into a microbial cell in which such a defense system is not present, provides the microbial cell resistance to phage infection. In some embodiments, integration of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to phage infection. In some embodiments, integration of functional components of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to phage infection. In some embodiments, integration of at least one functional component of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to phage infection.

In some embodiments, introduction of a defense system into a bacterium cell in which such a defense system is not present, provides the bacterium resistance to foreign nucleic acid invasion. In some embodiments, introduction of a defense system into a bacterium cell in which such a defense system is not present, provides the bacterium resistance to phage infection. In some embodiments, integration of a defense system into the genome of a bacterial cell in which such the defense system is not present, provides the bacterium cell resistance to phage infection. In some embodiments, integration of functional components of a defense system into the genome of a bacterium cell in which such the defense system is not present, provides the bacterium cell resistance to phage infection. In some embodiments, integration of at least one functional component of a defense system into the genome of a bacterium cell in which such the defense system is not present, provides the bacterial cell resistance to phage infection. Resistance to phage infection in bacteria may occur for example, but not limited to, abortive infection of a phage, blocking phage adsorption to the bacterium surface, acquired immunity, preventing phage lysogeny in bacteria, causing degradation of phage genome in bacteria, inhibition of phage replication, and inhibition of phage genome replication. not causing an abortive infection;

In some embodiments, a defense system disclosed herein is not present in a microbial cell species. In some embodiments, a defense system disclosed herein is not present in a bacterial cell species.

In some embodiments, a defense system disclosed herein is not functional in a microbial cell species. In some embodiments, a defense system disclosed herein is not functional in a bacterial cell species. Thus, in some embodiments, introduction of a defense system into a microbial cell lacking a functional version of the defense system disclosed herein, provides resistance to foreign nucleic acid invasion. In some embodiments, introduction of a defense system into a microbial cell lacking a functional version of the defense system disclosed herein, provides resistance to phage infection.

In some embodiments, introduction of a defense system into a microbial cell in which such a defense system is not present, provides the microbial cell resistance to plasmid transformation. In some embodiments, integration of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to plasmid transformation. In some embodiments, integration of functional components of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to plasmid transformation. In some embodiments, integration of at least one functional component of a defense system into the genome of a microbial cell in which such the defense system is not present, provides the microbial cell resistance to plasmid transformation.

In some embodiments, introduction of a defense system into a bacterium cell in which such a defense system is not present, provides the bacterium resistance to plasmid transformation. In some embodiments, integration of a defense system into the genome of a bacterial cell in which such the defense system is not present, provides the bacterium cell resistance to plasmid transformation. In some embodiments, integration of functional components of a defense system into the genome of a bacterium cell in which such the defense system is not present, provides the bacterium cell resistance to plasmid transformation. In some embodiments, integration of at least one functional component of a defense system into the genome of a bacterium cell in which such the defense system is not present, provides the bacterial cell resistance to plasmid transformation. Resistance to plasmid in bacteria may occur for example, but not limited to, reduced transformation efficiency, inhibition of plasmid establishment, and or inhibition of transformation.

In some embodiments, introduction of a defense system into a bacterium cell in which such a defense system is not present, provides the bacterium protection from conjugative elements. In some embodiments, integration of a defense system into the genome of a bacterial cell in which such the defense system is not present, provides the bacterium cell protection from conjugative elements. In some embodiments, integration of functional components of a defense system into the genome of a bacterium cell in which such the defense system is not present, provides the bacterium cell resistance to conjugation with another bacterium. In some embodiments, integration of at least one functional component of a defense system into the genome of a bacterium cell in which such the defense system is not present, provides the bacterial cell resistance to conjugation with another bacterium. The skilled artisan would appreciate that the term “conjugative elements” may encompass mobile genetic elements, plasmids, and transposons.

A skilled artisan would appreciate that a defense system includes but is not limited to a system that defends a cell from foreign nucleic acid. In some embodiments, a defense system includes but is not limited to a system that defends a cell from foreign DNA. In some embodiments, a defense system includes but is not limited to a system that defends a cell from foreign RNA. In some embodiments, a defense system includes but is not limited to an anti-plasmid system. In some embodiments, a defense system includes but is not limited to an anti-transposon system. In some embodiments, a defense system includes but is not limited to an anti-conjugation system. In some embodiments, a defense system includes but is not limited to an anti-phage system.

In some embodiments, the nucleic acid comprises a linear nucleic acid molecule. In some embodiments, the nucleic acid comprises circular nucleic acid molecule. In some embodiments, the nucleic acid comprises a single stranded nucleic acid molecule. In some embodiments, the nucleic acid comprises a double stranded nucleic acid molecule. The skilled artisan would appreciate that foreign nucleic acid may in some embodiments, encompass any nucleic acid molecule foreign to, for example, but not limited to a microbial cell, a bacterium cell, or an archaeal cell.

In some embodiments, a foreign nucleic acid comprises a foreign DNA or foreign RNA. In some embodiments, a foreign DNA or foreign RNA comprises a phage. In some embodiments, a foreign DNA or foreign RNA comprises a plasmid. In some embodiments, a foreign DNA or foreign RNA comprises a conjugative element. In some embodiments, a foreign DNA or foreign RNA comprises a mobile genetic element. In some embodiments, a foreign DNA or foreign RNA comprises a mobile genetic element.

In some embodiments, a defense system protects bacteria from phage infection. In some embodiments, a defense system protects bacteria from plasmid transformation. In some embodiments, a defense system protects bacteria from conjugative elements. In some embodiments, a defense system provides a bacteria resistance to phage infection. In some embodiments, a defense system provides a bacteria resistance to plasmid transformation. In some embodiments, a defense system provides a bacteria resistance to entry of conjugative elements.

Disclosed herein, is the identification of defense systems. In some embodiments, the components of a defense system are located in a gene cluster in a prokaryotic cell. The terms “gene cluster”, “cassette of genes”, “cassette”, and “components of a system”, may in some embodiments herein be used interchangeably having all the same meanings and qualities.

In some embodiments, each gene of a “cassette of genes” comprises a nucleic acid sequence encoding a polypeptide component of the defense system. In some embodiments, a “cassette of genes” comprises nucleic acid sequences encoding components of the defense system including open reading frames encoding defense system polypeptide components, regulatory sequences, and non-coding RNAs. A skilled artisan would appreciate that a “cassette of genes” may encompass an operon. In some embodiments, a cassette of genes comprises regulatory sequences. In some embodiments, a cassette of gene comprises non-coding RNAs.

In some embodiments, disclosed herein is a nucleic acid construct of a Defense System. In some embodiments, a nucleic acid construct of a Defense System comprises at least two nucleic acid constructs each expressing at least one of the polypeptide components of the Defense System. In some embodiments, disclosed herein is a nucleic acid construct of a Defense System comprising at least two nucleic acid constructs each expressing at least one functional polypeptide component of the Defense System.

In some embodiments, the nucleic acid construct comprises a plurality of constructs each expressing a single component of a Defense System described herein. In some embodiments, the nucleic acid construct comprises a plurality of constructs each expressing a single functional component of a Defense System described herein.

In some embodiments, a single nucleic acid construct encodes a number of polypeptide components of a Defense System described herein. In some embodiments, a single construct encodes a number of functional polypeptide components of a Defense System described herein.

A skilled artisan would recognize that the term “anti-phage activity” or “resistant to infection by at least one phage” encompasses an activity providing increased resistance of a host cell to infection by at least one phage in comparison to the host cell of the same species under the same developmental stage (e.g. culture state) which does not express the functional defense system. In some embodiments, a host cell may comprise a microbial cell. In some embodiments, a host comprises a bacterium. Anti-phage activity or resistance of a host cell to infection by at least one phage may be determined by, for example but not limited to, bacterial viability, phage lysogeny, phage genomic replication or phage genomic degradation, or a combination thereof.

A skilled artisan would appreciate that the term “abortive infection (Abi)” encompasses a controlled cell death of an infected bacterial cell which takes place prior to the production of phage progeny, thus protecting the culture from phage propagation. Methods of analyzing Abi include, but are not limited to cell survival assays using high multiplicity of infection, one step growth assays and determination of phage DNA replication by e.g. DNA sequencing and southern blot analysis as further described hereinbelow.

A skilled artisan would appreciate that the phrase “not affecting phage adsorption” encompasses a non-statistically significant difference in phage adsorption to bacteria expressing a functional defense system in comparison to bacteria of the same species under the same developmental stage (e.g. culture state) which does not express a functional defense system.

A skilled artisan would appreciate that the term “adsorption” encompasses the attachment to the host (e.g. bacteria) cell surface via plasma membrane proteins and glycoproteins. Methods of analyzing phage adsorption include, but are not limited to enumerating free phages in bacterial cultures infected with the phages immediately after phage addition and at early time points (e.g. 30 minutes) following phage addition as further described hereinbelow.

A skilled artisan would appreciate that the term “prevent” or “preventing” encompasses a decrease in activity (e.g. phage genomic replication, phage lysogeny, circularization of phage genome) in bacteria expressing a functional defense system in comparison to bacteria of the same species under the same developmental stage (e.g. culture state) which does not express a functional defense system. According to specific embodiments the decrease is at least 1.5 fold, at least 2 fold, at least 3 fold, at least 5 fold, at least 10 fold, or at least 20 fold as compared to same in the absence of the functional defense system.

A skilled artisan would appreciate that the term “resistance” to, for example, foreign nucleic acid invasion, encompasses a decrease in activity (e.g. phage genomic replication, phage lysogeny, circularization of phage genome) in bacteria expressing a functional defense system in comparison to bacteria of the same species under the same developmental stage (e.g. culture state) which does not express a functional defense system. According to specific embodiments the decrease provided by such resistance to foreign nucleic acid invasion is at least 1.5 fold, at least 2 fold, at least 3 fold, at least 5 fold, at least 10 fold, or at least 20 fold as compared to same in the absence of the functional defense system.

A skilled artisan would appreciate that the term “phage genomic replication” encompasses production of new copies of the phage genome which can be dsDNA or ssDNA. Methods of analyzing phage genomic replication are well known in the art, and in the Examples section which follows.

A skilled artisan would appreciate that the term “lysogeny” encompasses the incorporation of the phage genetic material inside the genome of the host (e.g. bacteria). Methods of analyzing phage lysogeny are well known in the art and include, but not limited to, DNA sequencing and PCR analysis. Typically, when a temperate phage infects a bacterium, its genetic material becomes circular before it incorporates into the bacterial genome. Circularization of phage genome can be analyzed by methods well known in the art including, but not limited to, PCR analysis as described e.g. in the Examples section which follows.

When referring to “degradation of phage genome” the meaning is the cleavage of the foreign phage genome by the host bacteria. Method of analyzing genomic degradation are well known in the art including, but not limited to, DNA sequencing and PCR analysis.

A skilled artisan would appreciate that the term “restriction modification system” may encompass a restriction entity having an activity of cleaving a genomic molecule (e.g. DNA)/DNA and a modification entity capable of protecting (e.g., by methylation) the host DNA from the cleavage by the restriction enzyme e.g. by methylating the host DNA. Analyzing restriction modification mode of action include, but is not limited to, evaluation of host specific methylation, presence of degraded foreign DNA and host cell death in the absence of the modification enzyme by methods described herein.

In some embodiments, a functional defense system leads to an abortive infection in bacteria expressing the defense system. In some embodiments, a functional defense system reduces affect phage adsorption to bacteria expressing the defense system. In some embodiments, a functional defense system prevents phage genomic replication in bacteria expressing the defense system. In some embodiments, a functional defense system prevents phage lysogeny in bacteria expressing the defense system. In some embodiments, a functional defense system prevents circularization of a phage genome in bacteria expressing the defense system. In some embodiments, a functional defense system leads to degradation of a phage genome in bacteria expressing the defense system. In some embodiments, a functional defense system comprises a restriction modification system. In some embodiments, a functional defense system comprises a gene editing system.

In some embodiments, a functional defense system does not lead to an abortive infection in bacteria expressing the defense system. In some embodiments, a functional defense system does not affect phage adsorption to bacteria expressing the defense system. In some embodiments, a functional defense system does not prevent phage genomic replication in bacteria expressing the defense system. In some embodiments, a functional defense system does not prevent phage lysogeny in bacteria expressing the defense system. In some embodiments, a functional defense system does not prevent circularization of a phage genome in bacteria expressing the defense system. In some embodiments, a functional defense system does not lead to degradation of a phage genome in bacteria expressing the defense system. In some embodiments, a functional defense system does not comprise a restriction modification system.

A skilled artisan would recognize that the term “anti-plasmid transformation” or “reducing the transformation of a host cell by a plasmid vector” encompasses an activity whereby a host cell, for example but not limited to bacteria, expressing a functional defense system as disclosed herein, has reduced transformation efficiency of an episomal plasmid, in comparison to the host cell of the same species under the same developmental stage (e.g. culture state) which does not express the functional defense system. Anti-plasmid transformation or reduction of transformation efficiency may be determined by, for example but not limited to, measuring plasmid transformation efficiency in the presence or absence of a defense system disclosed herein.

In some embodiments, a plasmid may undergo integration into the bacterial genome or may be episomal. In some embodiments, the plasmid is episomal. In some embodiments, the plasmid is integrative. In some embodiments, a Defense System disclosed herein, provides plasmid resistance.

The skilled artisan would appreciate that “plasmid resistance” or “anti-plasmid activity” encompasses an increase resistance of at least two-fold increased bacterial resistance towards plasmid transformation, in comparison to bacteria of the same species under the same developmental stage (culture state) which does not express the Defense System. In some embodiments, plasmid resistance may be manifested as viability of the bacteria. In some embodiments, plasmid resistance comprises decreased efficiency of transformation of the plasmid. According to a specific embodiment, the plasmid resistance is increased by at least two-fold, five-fold, ten-fold, twenty-fold, fifty-fold, one-hundred-fold, or one-thousand-fold.

Assays for testing plasmid resistance are well known in the art and include, but not limited to, a transformation assay such as described in Itaya and Tsuge [Methods Enzymol (2011) 498:427-47].

As used herein, the terms “the defense system” may in some embodiments be used interchangeably with the term “defense system” or “defense system” or “system”, having all the same meanings and qualities.

In some embodiments, different defense systems may be combined. Combination of defense systems, may in certain embodiments, provide multiple types of defense against foreign nucleic acid. For example, but not limited to defense against phage infection of phage from different families, or defense against phage infection and protection against conjugative elements, or defense against phage infection and resistance to plasmid transformation.

In some embodiments, a nucleic acid construct encodes an at least one defense system, said nucleic acid construct comprising nucleic acid sequences encoding polypeptide components of a defense system. In some embodiments, a nucleic acid construct described herein, encodes at least one defense system described herein. In some embodiments, a nucleic acid construct described herein, encodes at least one functional defense system described herein. In some embodiments, a nucleic acid construct comprises a nucleic acid encoding at least two different polypeptide components of the defense system. In some embodiments, a nucleic acid construct comprises a nucleic acid encoding at least one polypeptide components of the defense system. In some embodiments, a nucleic acid construct comprises a nucleic acid encoding at least three different polypeptide components of the defense system. In some embodiments, a nucleic acid construct comprises a nucleic acid encoding at least four two different polypeptide components of the defense system. In some embodiments, a nucleic acid construct comprises a nucleic acid encoding at least five different polypeptide components of the defense system.

In some embodiments, a nucleic acid construct encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, a nucleic acid construct encodes more than one component of the defense system but less than all of the components required for a functionally active defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, a nucleic acid construct encodes more than one copy of a single component of the defense system, whereby multiple constructs may be used to assemble the functional defense system.

The skilled artisan would recognize that the “components” making up a functional defense system may in some embodiments, be also be referred to herein as the members of the “cassette of genes” identified to represent a defense system, wherein each component is encoded by a different gene. In some embodiments, a construct disclosed herein may comprise less than the full complement of polypeptides required for a functional defense system, whereby multiple constructs may be combined for expression of the functional defense system. In some embodiments, components comprise polypeptide molecules of a defense system. In some embodiments, components comprise non-coding RNAs. In some embodiments, components comprise promoters and other control elements.

In some embodiments, a defense system described herein comprises all of the polypeptide components as described herein. In some embodiments, a defense system comprises one of the polypeptide component as described herein. In some embodiments, a defense system comprises all of the polypeptide component as described herein. In some embodiments, a defense system comprises two of the polypeptide component as described herein. In some embodiments, a defense system comprises three of the polypeptide component as described herein. In some embodiments, a defense system comprises four of the polypeptide component as described herein. In some embodiments, a defense system comprises five of the polypeptide component as described herein. In some embodiments, a defense system comprises more than one copy of a particular polypeptide component of the defense system, as described herein.

A skilled artisan would appreciate that the term “nucleic acid sequence” and “polynucleotide”, which are interchangeably used herein, may encompass a single or double stranded nucleic acid sequence which is isolated and provided in the form of an RNA sequence, a complementary polynucleotide sequence (cDNA), a genomic polynucleotide sequence, and/or a composite polynucleotide sequences (e.g., a combination of the above).

In some embodiments, a nucleic acid construct disclosed herein encodes no more than 20, no more than 15, no more the 10 genes expression products. In some embodiments, a gene expression product comprises a component of a Defense System. In some embodiments, a gene expression product comprises a functional component of a Defense System. In some embodiments, a gene expression product comprises a portion of a component that is functional in a Defense System disclosed herein. In some embodiments, a gene expression product or a portion thereof is isolated. In some embodiments, a gene expression product or a portion thereof is comprised in a Defense System disclosed herein.

A skilled artisan would appreciate that the term “isolated” encompasses an element being at least partially separated from the natural environment, physiological environment e.g., a microorganism e.g., bacteria, e.g., a polypeptide, eg., a nucleic acid sequence.

A skilled artisan would appreciate that the term “polypeptide” encompasses native peptides (either degradation products, synthetically synthesized peptides or recombinant peptides) and peptidomimetics (typically, synthetically synthesized peptides), as well as peptoids and semipeptoids which are peptide analogs, which may have, for example, modifications rendering the peptides more stable while in a body or more capable of penetrating into cells. Such modifications include, but are not limited to N terminus modification, C terminus modification, peptide bond modification, backbone modifications, and residue modification. Methods for preparing peptidomimetic compounds are well known in the art and are specified, for example, in Quantitative Drug Design, C. A. Ramsden Gd., Chapter 17.2, F. Choplin Pergamon Press (1992), which is incorporated by reference as if fully set forth herein.

The polypeptides disclosed herein may be synthesized by any techniques known to those skilled in the art of peptide synthesis, for example but not limited to recombinant DNA techniques or solid phase peptide synthesis.

In some embodiments, a defense system comprises multiple nucleic acid constructs comprising nucleic acid sequences encoding polypeptide components of two or more functional the defense system. In some embodiments, the two or more functional the defense system do not naturally occur together in a cell in nature.

In some embodiments, each nucleic acid construct encoding a defense system or components of a defense system, further comprises a regulatory element or elements operably linked to the construct. In some embodiments, regulatory elements comprise a cis-acting regulatory element for directing expression of said nucleic acid sequence. In some embodiments, regulatory elements comprise a transmissible element for directing transfer of said nucleic acid sequence from one cell to another. In some embodiments, regulatory elements comprise a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct. In some embodiments, regulatory elements comprise an element providing episomal maintenance of said construct within a cell transfected with said construct. In some embodiments, regulatory elements comprise a combination of a cis-acting regulatory element for directing expression of said nucleic acid sequence, a regulatory element comprising a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, a regulatory element comprising a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, a regulatory element comprising an element providing episomal maintenance of said construct within a cell transfected with said construct, in any combination.

Defense Systems

In some embodiments, the defense systems disclosed herein may be a combination of defense systems. In some embodiments, a combination of the defense systems comprises an anti-phage system and an anti-plasmid system. In some embodiments, a combination of the defense systems comprises an anti-phage system and an anti-conjugative element system. In some embodiments, a combination of the defense systems comprises an anti-plasmid system and an anti-conjugative element system. In some embodiments, a combination of the defense systems comprises an anti-phage system, an anti-plasmid system, and an anti-conjugative element system. In some embodiments, a combination of the defense systems comprises an anti-phage system, an anti-plasmid system, or an anti-conjugative element system, or any combination thereof.

In some embodiments, introducing any of the defense systems disclosed herein, into eukaryotic cells, for example but not limited to bacteria cells, where they are not naturally found (therefore the defense system is non-naturally occurring), provides the host cells protection against phage infection.

In some embodiments, nucleic acid sequences or nucleic acid constructs may further include nuclear targeting signals (NLS) so that a nucleic acid sequence encoding a non-naturally polypeptide component, may be directed to the nucleus for expression. In some embodiments, nucleic acid sequences or nucleic acid constructs may further include nuclear targeting signals (NLS) so that multiple nucleic acid sequences encoding non-naturally polypeptide components or a defense system described herein, may be directed to the nucleus for expression. In some embodiments, nucleic acid sequences or nucleic acid constructs may further include nuclear targeting signals (NLS) so that combinations of nucleic acids encoding defense systems (polypeptides) described herein, may be directed to the nucleus for expression.

In some embodiments, introducing any of the defense systems disclosed herein, into eukaryotic cells, for example but not limited to bacteria cells, where they are not naturally found (therefore they are non-naturally occurring), provides the host cells protection against introduction of external DNA. In some embodiments, introducing any of the defense systems disclosed herein, into eukaryotic cells, for example but not limited to bacteria cells, where they are not naturally found, provides the host cells protection against introduction of external plasmid DNA. In some embodiments, introducing any of the defense systems disclosed herein, into eukaryotic cells, for example but not limited to bacteria cells, where they are not naturally found, provides the host cells protection against introduction of external conjugative elements.

In some embodiments, a combination of the defense systems comprises combining an anti-phage system and another anti-phage system. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and more than one other anti-phage system. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and two other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and three other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and four other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and five other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and six other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and seven other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and eight other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and nine other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and ten other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system and more than 10 other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system with between 2-15 other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system with between 2-7 other anti-phage systems. In some embodiments, a combination of the defense systems comprises combining an anti-phage system with between 7-15 other anti-phage systems.

In some embodiments, an at least one defense system comprises any of the defense systems described herein. In some embodiments, an at least one defense system comprises any combination of the defense systems described herein. In some embodiments, wherein a defense system comprises at least two different polypeptide components (See below and Table 18), an at least one defense system comprises at least two different polypeptide components of the defense system.

Below are non-limiting examples of defense systems, which in some embodiments may be used independently, and in other embodiments may be used in combinations.

The ZORYA Defense System

In some embodiments, a defense system disclosed herein comprises a ZORYA anti-phage defense system. In some embodiments, a ZORYA defense system (Defense System Ia or Defense system Ib) provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional ZORYA defense system (Defense System Ia; or Defense System Ib) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a ZORYA defense system provides a host cell with resistance to at least one phage. In some embodiments, a ZORYA Type I defense system provides a host cell with resistance to at least one phage. In some embodiments, a ZORYA Type II defense system provides a host cell with resistance to at least one phage. (Table 8)

In some embodiments, expression of a ZORYA defense system in bacteria protects the bacteria from phage infection. In some embodiments, expression of a ZORYA Type I defense system in bacteria protects the bacteria from phage infection. In some embodiments, expression of a ZORYA Type II defense system in bacteria protects the bacteria from phage infection.

In some embodiments, a ZORYA defense system (Defense System Ia or Defense system Ib) provides a host cell with resistance to plasmid transformation. In some embodiments, a host cell expressing a functional ZORYA defense system (Defense System Ia or Defense System Ib) provides a host cells with resistance to plasmid transformation.

In some embodiments, a ZORYA defense system (Defense system Ia or Ib) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function ZORYA defense system (Defense System Ia or Ib) provides the host cell resistance from entry of conjugative elements.

As used herein, the term “a ZORYA anti-phage defense system” may be used interchangeably with the term “a Defense System I”, having all the same meanings and qualities. Further, in some embodiments, the term “a ZORYA Type I defense system” may be used interchangeably with the term “a Defense System Ia”, having all the same meanings and qualities. In some embodiments, the term “a ZORYA anti-phage defense system” may be used interchangeably with the term “a Defense System Ia”, having all the same meanings and qualities. Further, in some embodiments, the term “a ZORYA Type I defense system” may be used interchangeably with the term “a Defense System Ia”, having all the same meanings and qualities. In some embodiments, the term “a ZORYA anti-phage defense system” may be used interchangeably with the term “a Defense System Ib”, having all the same meanings and qualities. Further, in some embodiments, the term “a ZORYA Type I defense system” may be used interchangeably with the term “a Defense System Ib”, having all the same meanings and qualities.

In some embodiments, a ZORYA defense system provides a host cell with resistance to plasmid transformation. In some embodiments, a ZORYA Type I defense system provides a host cell with resistance to plasmid transformation. In some embodiments, a ZORYA Type II defense system provides a host cell with resistance to plasmid transformation.

As used herein, the term “ZORYA system” may be used interchangeably in some embodiments with “ZORYA defense system”, “ZORYA the defense system”, “ZORYA defense system”, “ZORYA anti-phage system”, “ZORYA Type I defense system”, “ZORYA Type II defense system”, “Defense System Ia” and “Defense System Ib”.

In some embodiments, a microbial species does not comprise an endogenous Defense System I. In some embodiments, a microbial species does not comprise an endogenous Defense System Ia. In some embodiments, a microbial species does not comprise an endogenous Defense System Ib. In some embodiments, a microbial species does not express an endogenous Defense System I. In some embodiments, a microbial species does not express an endogenous Defense System Ia. In some embodiments, a microbial species does not express an endogenous Defense System Ib. In some embodiments, a microbial species does not express an endogenous functional Defense System I. In some embodiments, a microbial species does not express an endogenous functional Defense System Ia. In some embodiments, a microbial species does not express an endogenous functional Defense System Ib.

In some embodiments, a bacterial species does not comprise an endogenous Defense System I. In some embodiments, a bacterial species does not comprise an endogenous Defense System Ia. In some embodiments, a bacterial species does not comprise an endogenous Defense System Ib. In some embodiments, a bacterial species does not express an endogenous Defense System I. In some embodiments, a bacterial species does not express an endogenous Defense System Ia. In some embodiments, a bacterial species does not express an endogenous Defense System Ib. In some embodiments, a bacterial species does not express an endogenous functional Defense System I. In some embodiments, a bacterial species does not express an endogenous functional Defense System Ia. In some embodiments, a bacterial species does not express an endogenous functional Defense System Ib.

A ZORYA Type I defense system (Defense System Ia) comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof. In some embodiments, a ZORYA Type I defense system comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide. In some embodiments, a ZORYA Type I defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a zorA gene, a zorB gene, a zorC gene, and a zorD gene.

In some embodiments, a ZORYA Type I defense system (Defense System Ia) comprises a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof. In some embodiments, a ZORYA Type I defense system (Defense System Ia) having an anti-phage activity comprises a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof.

In some embodiments, a ZORYA Type I defense system (Defense System Ia) comprises at least two polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof. In some embodiments, a ZORYA Type I defense system (Defense System Ia) having an anti-phage activity comprises at least two polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof. In some embodiments, a ZORYA Type I defense system (Defense System Ia) comprises at least three polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof. In some embodiments, a ZORYA Type I defense system (Defense System Ia) having an anti-phage activity comprises at least three polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof. In some embodiments, a ZORYA Type I defense system (Defense System Ia) comprises at least four polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof. In some embodiments, a ZORYA Type I defense system (Defense System Ia) having an anti-phage activity comprises at least four polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof.

In some embodiments, a Defense System Ia comprises a ZorA polypeptide comprising a pfam01618 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; or a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; or a ZorC polypeptide comprising a pfam15611 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns R and S; or a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns V and W; or said Defense System Ia comprises any combination of polypeptide components ZorA, ZorB, ZorC, and ZorD.

A skilled artisan would appreciate that the term “comprising” encompasses inclusion of the recited elements, but not excluding others which may be optional. For example, but not limited to a defense system, a defense system may comprise a single polypeptide component, or may comprise multiple polypeptide components. For example, but not limited to a Defense System Ia, in some embodiments a Defense System Ia comprises at least two different polypeptide components selected from ZorA, ZorB, ZorC, and ZorD. In some embodiments, a Defense System Ia comprises at least three different polypeptide components selected from ZorA, ZorB, ZorC, and ZorD. In some embodiments, a Defense System Ia comprises polypeptide components ZorA, ZorB, ZorC, and ZorD.

A skilled artisan would appreciate that the phrase “consisting essentially of” may encompass, for example but not limited to, a defense system that includes the recited elements but exclude other elements that may have an essential significant effect on the performance of the method. In some embodiments, a Defense System Ia consists essentially of polypeptide components ZorA, ZorB, ZorC, and ZorD.

A skilled artisan would appreciate that the term “consisting of” may encompass, for example but not limited to, a defense system that includes the recited elements but not more than traces of other elements. Thus, in some embodiments, a Defense System Ia consists of a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide.

Embodiments defined by each of these transition terms are within the scope of this invention.

A ZORYA Type II defense system (Defense System Ib) comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, and a ZorE polypeptide comprising a pfam01844 domain. In some embodiments, a ZORYA Type II defense system (Defense System Ib) comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide. In some embodiments, a ZORYA Type II defense system (Defense System Ib) comprises a nucleic acid construct comprising a nucleic acid sequence comprising a zorA gene, a zorB gene, and a zorE gene.

In some embodiments, a ZORYA Type II defense system (Defense System Ib) comprises a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, and a ZorE polypeptide comprising a pfam01844 domain. In some embodiments, a ZORYA Type II defense system (Defense System Ib) having an anti-phage activity comprises a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, and a ZorE polypeptide comprising a pfam01844 domain.

In some embodiments, a Zorya Type II defense system (Defense System Ib) comprises a ZorE polypeptide and ZorA polypeptide. In some embodiments, a Zorya Type II defense system (Defense System Ib) comprises a ZorE polypeptide and ZorB polypeptide. In some embodiments, a Zorya Type II defense system (Defense System Ib) comprises a ZorE polypeptide, ZorA polypeptide, and a ZorB polypeptide. In some embodiments, a Zorya Type II defense system (Defense System Ib) comprises a ZorE polypeptide comprising a pfam01844 domain or a COG3183 domain or a combination thereof. In some embodiments, a Zorya Type II defense system (Defense System Ib) having an anti-phage activity comprises a ZorE polypeptide comprising a pfam01844 domain or a COG3183 domain or a combination thereof.

In some embodiments, a Defense System Ib comprises a ZorA polypeptide comprising a pfam01618 domain or comprises an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; or a ZorB polypeptide comprises a pfam13677 domain or a pfam00691 domain or a combination thereof, or comprises an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; or a ZorE polypeptide comprising a pfam01844 domain or a COG3183 domain or a combination thereof or comprises an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 1175-1830 columns Z and AA; or any combination thereof.

In some embodiments, a ZORYA Type I defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide. In some embodiments, a ZORYA Type I defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a zorA gene, a zorB gene, a zorC gene, and a zorD gene. In some embodiments, a ZORYA Type II defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a zorA gene, a zorB gene, and a zorE gene.

In some embodiments, the ZORYA anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising zorA, zorB, zorC, and zorD genes. In some embodiments, a construct comprising the ZORYA defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a ZORYA Type I defense system comprise genes zorA, zorB, zorC, and zorD. In some embodiments, the components of a ZORYA Type I defense system consist of genes zorA, zorB, zorC, and zorD. In some embodiments, the components of a ZORYA Type I defense system comprise nucleic acid sequences encoding a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide. In some embodiments, the components of a ZORYA Type I defense system consist of nucleic acid sequences encoding a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide.

In some embodiments, a Zorya Type I (Defense System Ia) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 14; Construct 49 Table 4) 1 tgtaaatcct cggggtagat cgcagcgaaa gagcaaccat gccttatcgc aaattcagtt 61 ttggaatgca gttcgcaaaa tgatacccgg tacacttacg attacaaatg cgcggtataa 121 agaagtttgc atttgatcgg tgaataatag gaaactcagt cactgtttcg tctgcaaaat 181 cagccatttc gccttcatac gtagttcttc ggttgaatag taaggtctat catgctgcat 241 cgaacggtga ttttgatgga tgttggaagt gagtagctgt acgtaatttt tgattaaaag 301 taatcaaaat gttgccaatg gttatgctat cgtgtgtttt ttgaatatat aacaggtaaa 361 actatgtcct ggcttaattc tgtcttattg gcgcttacct cggtgcaacc ttatatggta 421 ccggcaaccg ttatcggcct cgtcagtttt gcattcctct gttttatttt cttttatttt 481 tttagagcag ttaaaattat taacggcctg aaaaaatata ctcagtcaat taatggcatc 541 gaaaataatg agcctggtaa tcagcttcag catctgcaaa gtttgtttgt acagcctgag 601 ttaaagcacg cctggaatga attcgaagaa tcgttgcact cacaatatga actggaggac 661 ggggaagaga aaatcgtccg tattagggct actgcaccga gcgccagttt cttctcggag 721 caacaactgg tcgatattcc gctgaacacc gaatttttca aacacctgcc cggtattctg 781 accggtgtgg ggattatcgg taccttctac ggtctgatga ttggtctcaa ccacttcgac 841 cccagcacac cagagcaggt ctccagcagc gtcaataatc tgcttcgcga tgtgctgtac 901 gccttcctcg gttcagcatt tgcgattacg ttctctatcc ttatcacctg gctggagaaa 961 ttctgtctgg cgaaatgcta caaatatctg gaaaaattca ccgcagctct cgacgccctc 1021 tatgacagcg gtgttggcga ggagtacctt gcctcactgg taaaatccag taatgaaagc 1081 gcgacccagg cacgccatct gaaagagagc ctggttaccg atttacgcga tatgctgctg 1141 catctggcca acagccagaa agtggaaaac gagcggctag cgaccaccct cagcaccacc 1201 tatcgcgaaa caggacaaca gtttgccgag caagtcagcg gtgcgattga aaacagcctg 1261 aaatcaccgc tggataaaat agcgggcgcg gttcagaccg ccagtggcga tcaaagcggc 1321 atggtacaaa acatgctgca ggatgtgctg accgcgttta tggcgaaact cgacaccacc 1381 tttggtcagc agtttactaa tctcaacgaa atgatgggac aaaccgttgg cgctattcag 1441 acaatgcaaa ccggtttcgg cgcgttatta caggacatgc gtcaggtgag cgatgattcc 1501 cgccagggca gcgcgcagct catcgagcaa ctgttatcag agatgaaatc tggccagcaa 1561 gctatgcagg ctggcatgaa tgacatgctc accagccttc agacctcggt ggctaaaatt 1621 ggcgcagaag gtgaaggtgc cggcgagcga atggctcgcc aactagagaa aatgttcgct 1681 gatagcgagg cgcgagaaaa agcccaggca gaacatatga ccgcctttat tgaagccatt 1741 cagaattcag tgcagcaggg acaaagcgcc acaatggaaa aaatggcagc ctctgtcgag 1801 tcgcttggtg aacaactggg tagcctgttt gggcagattg ataagggtca gcaacagatt 1861 tcagcaaatc agcaagcgaa tcagcagtcc ctgcacgaac agactcagcg ggtaatgagt 1921 gaggtagacg atcagattaa acaattggtc gaaactgttg ccagccagca tcagggaaca 1981 actgaaacac ttcgtttact cgcagaacaa actaaccgcc agattcagga tatgcatacc 2041 ggcgcggaca aaatgcgtct ggcggccgag cgctttgaac atgccggtga tcgggtgtcg 2101 gaagcaaacc accttaccgc tgacgtgctg aataaagcgc aatcggcagg ttcatcactc 2161 tcccttgcca ccagcgaact cacctctgtg gtggctgatt atcgtaacaa tcgggaagcg 2221 gttagcaaat ccattgccat gctggagttg ctcgccgcaa atacgcagtc tgaacaaacc 2281 acgcgcaccc aattcatcgc cgaccttaag cagcacggtg agcgtctgca gagctataac 2341 cgggaagcac aggcctttat ggaaaatgtc agtgacgtgc tagggaaagg gtttgaagac 2401 ttctctgaag gtgtttcacg cagcctggat aaaacgctgg gcaaactgga cgttgaaatg 2461 gcgaaggctt ctactctgct cgcgggttct gtcgaacaga tcggagaaag cgtcagcgag 2521 cttgatgatg tcctgtcacg cgttcgtgcc taaggggtga cggctgatgt ttggaaatgc 2581 atttggcgtt aaaaaacgcc gcagcgatga agcagagaaa cccttctgga tctcctatgc 2641 cgatttgatg actgccatga tggtgttatt tctggtcgtt atggttgcgt cgctgagttc 2701 cgttacgcag cgtattcaac gtgcggagca aggtgaaaaa acacgggggc aggatatttc 2761 cagattgtgt gagcgcctgg aattgcatgc ccgcaacgtg aacaaaacca ttgtggtgga 2821 ttgccatgat aaccgtatca gttttggtga agccgggcgt ttcgatcaca accaattttt 2881 cctgaacgct gaggggcaaa aagccttgca ggatgtggtt cctcttgtgc tggaagcgtc 2941 caacagtgaa gaaggtaaaa aatggtttaa gcagatcgtt attgaagggt ttaccgacac 3001 cgacggttcg tacttataca acctacatct ctccctgcaa cgttctgagt gggtaatgtg 3061 tagtctgctc gatagccgca gccctctgca aaaaaatatc tccgcagaac agcagctcca 3121 aatccgtaaa cttttcctcg cgggtggtgt ctccttcaat aatgccaagg aaagcaagga 3181 agccagccgc cgcgtcgagt tgcgcatgca gttcttcggg cttaaagata aacgtgataa 3241 ggccgatgag gtggatttcc cccccgtcgt caataaagaa gtttgccagt tggtaatgcc 3301 cctatgacgc ctgcactgaa ttctctttct caacgcattg cagcgaggct ctcttccagc 3361 caacgggatg accattatct gcataatgat ttccacgcgc tggcctcagc tgctctcgac 3421 atggaaaagc ggtttgataa ggcagaaaaa atccctttac cgccacaaaa aatgcgactg 3481 gcagctctgc gtcgccttcg ccttgcacaa gaactcacgg agcgagagtg gcggatggtg 3541 ttttatggtc tcgccgataa tgatccgtca tatcctgacc agccagtact gctggaggat 3601 gatacgtttt tccctgaagt aaacaatgca atcaaaaagc ggcttgaaac taaaaccctg 3661 aaacgccgag actgggccgc actctgttca agctattttg cttaccagaa cccatcacct 3721 gagacaaacc cgcactggtg cgtactgcgt ggtcatatcg ctcagggtta catggtggtg 3781 aaagcggcta tacgacgaga aaaatcgtgg atgaaaacca ttgagtttta tcacgatatt 3841 tttaccccgc aggcgggagg cgtgatctcc agacagttac ttgcgggtga gagcaattca 3901 ctctcgtcat tagaaaaaat cgcgcaaatc cctgatagca gttggttgtg gaaacgtatt 3961 ttcacggtgc ttttagcgca actggacaca ctcgacgatc cccagtttct ggacaaaatt 4021 agctggttgt taggtctggc tgcccagtgg gtacgtttcc gtgatgacat catgactgcg 4081 accttgactc gctattacca ttctatttat cgcgatcagg ctcattcagc tttgaagcag 4141 gccgcgctgg aatactggga taacccgcaa ctgaaaagcc agcagaataa atggcatcag 4201 tatgtctctg agccggtggc tgcgatggtc cggggctggc tggcaaaaca agatctgatg 4261 catttctttg aattgctgcg cggtaatggc gatgttgacc aggcacgatt gcactattgg 4321 ctacgtttcg ccaatcagat gggatttacc cgtatcgtca tggggactga tgcctggcaa 4381 gaccgtggta gtgactttgt gaaattccgc gaggagaata agggacgatt gagttactta 4441 cgaggtggac gtaactttga taacgccatg attatgcaga tcaacgatta tctgttcgtt 4501 gagttttccg ggacagggaa tgcaatgtat gcctatcgaa taggtcacgc gccatttaac 4561 cctgaatcac gcacgcttga tatcaacatt catctaaaag ataaggggcg ctgcgtgctc 4621 cgactgcccc atacaccgcg cgcagaaggg tataacaaag tccggataac cggctggatg 4681 ttgaaatacg acgacgagct gcgtcagttg ggcattcggt ggatggcaga agaagccatc 4741 aagtttgtcg ataagaaagc gtcctctccc gcctctatgt ccgacattaa aatcatcaac 4801 ccgttgcgtg atacggctat acagcatctg gttgaaggta gttcatgtat cgtcagcgat 4861 aatcgacaaa aaggtggcgt actgtccgta caactcaata ctcctgacga caccatagaa 4921 agagagttgt tacggctagg ctttgcgccc gtggctaaag aaccgcatcg ttactggatc 4981 aaataatgct gaaacgtctg ttaagtaaac tgacgggaaa ccgtcagcag atagaacatc 5041 acctaaaaaa tcagtaccag gttgaggaaa acggacttag ctttccgcta tcgctggttg 5101 atgattcgca gctttgggca ctggcatcct ggctagaaca actggctgaa gaagactatc 5161 tgatatcact tacagaccgg tggttgttga gttgggacgc actgtatcgc ctgctggagg 5221 atgaggaaca tgccagcagc ctgcctctta tcggtgtacc tgacgtactg cctttacgcg 5281 caagcctgag ttcacgagga gcattaagcg atagcgattt tcgcgtctgg attgctgaat 5341 gggctacgct tccagcccgc aagccgatcc gtttcagtcg taccggtgcc attttaaccc 5401 atgaaaatca gcaatacctg ttatcgcgtg aaaactgggc actcttacag gcaacagaac 5461 aactcagtgc acagaaaaat cagactcctg gtgaaaccac taaccagttg ggatgggccg 5521 ctatccgcaa atgtgcgaag caagcagccg caaaatttga tgattattta gaaaaaacgc 5581 atgtcgtcaa accaacttca ttgtcattac gtctgcgtaa agcaacggtt gccgatactg 5641 ctgttatcga aattgagccc catttcgagg accagcctgc taactggcta ggcagttttg 5701 acaaaaactc gcaggttcac gatagctacc gcatccctgg agagaatggc gaactcagcc 5761 atgtcattat ccctcccgaa gtgaaagaag tcctgaattc aatacactcg attccaagcc 5821 gtcgagtggc cggaagcgaa gcgctttcct ttgttcgcaa tccttatacc ttcctgggtg 5881 aagatgccgc cagtgttatt gcccctgaag aacatgaaca ggcactgttt gatgccagga 5941 ttttctttca tcatttcagg ttgataccgc aactgaatgc ggaaaataag atcgcagaag 6001 ttacgctggt acttgagcct gtttcacctg ttccccagcc agaaatcact tttgggttct 6061 cagccccccg ggagctggat aaattcatac agcaactcgg tattagcgtc gctgcacaga 6121 tgcctgccgg ttcatggcaa ggttacgagc tggaattaag tcagttcact gaacagcagt 6181 ggcacgattg ccaggcactt ctaactcgct ggcagcaaga aatagaagga aaagaattta 6241 gcgatgtgct ggatattgcg aagtatggcg atcgcgtgat tggcattggt gaatttgaaa 6301 aaatctcctc tccctggctg accaaagcgc agagtgaaaa ctggcttcca gatgacatcg 6361 atttctccgc gttttcagtc gaaacactgt ctggctggca acctgaaaac cttcaccatt 6421 tcgatgaact gcaggagaga attactcagg cagaagctgt aggtgaaacg catatcaccg 6481 caccatggaa tgacagccaa ttaccgttgg atgctgctaa aaccttcagt aagaactggg 6541 aaaaacagca aagcactgca aatgaatctc aaggcaacgt tgcagataaa acggcccgag 6601 ccgtactcaa aattgagcag aatattgaag aaacggccta catcaaacag cgccgcaatt 6661 cactcctcaa tgcgcgtcat gccgagcctg aaattcctct gagccttaaa gagcatatcc 6721 gactcaaaga ccatcaacgt gaaggcgtag cctggctcca gcaactcttc cttcgttcac 6781 ctgaggaaac cgcaggttgc ctgctggcgg atgatatggg gcttgggaaa acgctgcaaa 6841 ttctgagctt cctggtatgg ttcattgaaa aattcccgca agaaccgcca agtctcattg 6901 ttgctcctgt ctctctttta gataactggg aacgtgaact ggacaatttc ttctataccg 6961 caggaatacc ggtattgaaa ttgtatggcg agaccattaa agcggtgaaa tatcccaaac 7021 aggctatccc tgctcatctg caatctcagg ggatcaaaaa cctgcttaaa cctggctggc 7081 agggtgaggc gaaaatcatc ctgacaacct acgaaacgct tcgcgaccag gagttttctc 7141 tggcacgcca gccgtggtcc attatggtgt gcgacgaggc acaaaaaata aaaaacccag 7201 ctgcgttaat cacacatgcg gccaacgcgg tacaagccag gtttaaagtg gcatgtacag 7261 gaacacctgt cgaaaacaca cttgtcgacc tgtggagctt atttgatttt gcccagccag 7321 gattgttagg ggcactaaat gaatttggta aacactatgt tcgccccatc gagaacgaag 7381 atggccgcga tacggaacgg ttggaaagcc tgcgagcgct gatagaacct cagactttac 7441 gccgaaccaa agaagaggtt gcgcgtgatt tacctcagaa aattgaagtg gaaagctgca 7501 agcaattgac gttgtctggc gtgcaaaaac agctctacct ttcgtccgtt gcaaattggc 7561 aacaacagca agcactgagc gaagggatgc agcaggccgg aaccggtatg ttaggtttgt 7621 tacaccgact gaaactcatc tgtgcacacc ctgcagtagt taatccagaa ccacgttttc 7681 gtgataactc acccaagctt aactggctgc tgaaaatact cgcagaacta aaacacacca 7741 cgaaagataa ggtcattatt tttacggagc ttcgagattt acagcgcgaa cttcaacatg 7801 cgatccacca aaagtttggt ttccgccctg tcattatcaa tggtgatacc agcactaaaa 7861 gtcaaagtca aaacagccgc cagcgcctga ttgatgattt tcaggctcag cctgggtttg 7921 gggtgattat tctctctacg gttgccgtcg gattcggcgt taacgtccag aaagccaatc 7981 atgttattca tttcactcgc tgctggaacc cagccaaaga agatcaggca acagaccggg 8041 cgtaccgaat tgggcaaact aaagatgtgt atgtctatta cccgacggtg aaggacactg 8101 aaatcaccac atttgaagaa acactggatg accttctgca gcgtcgacgt gcattggcca 8161 gagatatgct ctgcgctact cccgatttga gtggtgcgga ttttgaggcc attttgaagg 8221 gggcttaacc gatacgagtg gcaataccac cagcagtcga accgattcat ttgaaacgac 8281 acgtagccgc gatggatctg tatcacctac cgacagcttg ggaaagtccc gaattacaaa 8341 tgttcagggg aataccataa cctgccggac ttattcgttt ggaacgacgt gttacgactt 8401 agtccgaggg aaacatgcca ggtaaaaacc gaatatccat cctcagcttt agcaaatacc 8461 tccccatact cgctacttca tattgagaag atattgtgtt gctcatattg ctttgagcat 8521 gctcttcagc gtttacatgt ggatcgtact accctgatga tccgatgcgt tgtttactgc 8581 ttttaacctc tatatacaaa acccccacta aatatttttc tgagactaac ggtaaatcat 8641 tatctatcat gtagttacga tagaattgca tgtatctggc acaaaataag gtttcattac 8701 gttctatctt gttaaatata aagggatcat ttcctcccaa agtcacaatc

The coding regions for each of the zorA, zorB, zorC, and zorD gene sequences within this embodiment of a Zorya Type I cassette (SEQ ID NO: 14) are as follows: nucleotides 364-2553 encode an embodiment of a ZorA polypeptide; nucleotides 2567-3307 encode an embodiment of a ZorB polypeptide; nucleotides 3304-4986 encode an embodiment of a ZorC polypeptide; and nucleotides 4986-8228 encode an embodiment of a ZorD polypeptide.

In some embodiments, a Defense System Ia comprising a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide, is encoded by the nucleic acid sequence set forth in SEQ ID NO: 14. In some embodiments, a Defense System Ia comprising a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 14. In some embodiments, a Defense System Ia comprising a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 14. In some embodiments, a Defense System Ia comprising a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 14. In some embodiments, a Defense System Ia comprising a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 14.

In some embodiments, the ZORYA anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising zorA, zorB, and zorE genes. In some embodiments, a construct comprising the ZORYA defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a ZORYA Type II defense system comprise genes zorA, zorB, and zorE. In some embodiments, the components of a ZORYA Type II defense system consist of genes zorA, zorB, and zorE. In some embodiments, the components of a ZORYA Type II defense system comprise nucleic acid sequences encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide. In some embodiments, the components of a ZORYA Type II defense system consist of nucleic acid sequences encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide.

In some embodiments, a Zorya Type II (Defense System Ib) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 15; construct 51 from Table 4) 1 acctgccttc ctttgataca attcgtaaca ggttactatc atcataaaaa agctcaaccc 61 gatgaactcg ctaaaaatga gacaaatcat ttatatctcg aaaaaacttg ttacaatcat 121 gagcgctaca ccgaacttaa ccatataaat tatgtgtgtt ttgtttattt tttaaacgat 181 tacaactatc cattatttac acaggtatca aaatgttagc gcagcttttt gagcagttgt 241 ttcaatcgat agactctaca ctgatcacca atattttcat ctgggctgtt atattcgtat 301 ttttatcagc gtggtggtgt gacaaaaaaa atatacatag taagtttaga gaatatgctc 361 caaccttaat gggggcatta ggtattctgg gtactttcat tggtattatt attggtttac 421 tcaattttaa taccgaaagt attgatacca gcatccccgt attattaggt ggcctaaaaa 481 cagcattcat tacaagcatt gtaggtatgt tttttgccat tttatttaat ggaatggatg 541 ctttcttttt tgccaataaa cgaagtgcgt tagctgaaaa taaccctgaa tctgttacac 601 ctgaacatat ctatcatgaa ttaaaagagc agaaccagac tctgactaaa ttagtctcgg 661 gtattaacgg tgatagtgaa ggttctctta ttgctcaaat aaaattacta cgtactgaga 721 ttagcgattc ctcgcaggca caattagcta atcacactca tttcagtaat aagctttggg 781 aacaacttga acaatttgca gatctaatgg caaaaggtgc tacagaacaa attattgatg 841 ctttgcgaca agtcattatt gattttaatg aaaatttaac tgaacagttt ggtgaaaact 901 ttaaagctct tgatgcctct gtaaaaaaac ttgttgagtg gcagggaaat tataaaacgc 961 aaattgagca gatgtcagaa caatatcaac aaagtgtcga gtccctggtt gaaacaaaaa 1021 ctgcggttgc agggatttgg gaagaatgta aagaaattcc tctggctatg tctgaactgc 1081 gtgaagtgct tcaggtgaac caacatcaaa tcagcgaact ctcccgccat ttagaaacct 1141 ttgtcgccat ccgcgataaa gctacaaccg tattacctga aatacagaac aaaatggctg 1201 aagtgggtga actgctgaaa tccggagctg caaatgttag tgcatctctt gagcaaacca 1261 gccagcaaat acttcttaat gcagattcaa tgcgcgttgc cctggatgaa ggtaccgaag 1321 gattcagaca atcggttacc caaacacaac aagcatttgc ctcgatggcg catgatgtca 1381 gcaattcctc cgaaacccta accagcacgt taggtgaaac aattactgaa atgaaacaaa 1441 gtggtgaaga attcctgaaa tcactagagt cgcactcgaa agaattgcat agaaatatgg 1501 aacaaaatac gacgaatgtg attgatatgt tcagtaagac tggtgaaaag attaaccatc 1561 aactatccag taatgccgat aatatgtttg attcaatcca gacatcattt gataaggctg 1621 gtgcagggct gacttctcaa gtcagagaat caattgaaaa atttgctcta tccatcaacg 1681 agcagttaca tgcttttgag caagcaactg aacgtgaaat gaaccgtgaa atgcaatcat 1741 taggtaatgc tctgctttca atcagcaaag gttttgtcgg taactatgaa aaacttatta 1801 aagattacca aatagttatg gggcagttac aagcattaat ttctgctaat aaacatcgag 1861 ggtaatcgat catggataag attataggga aacaattacc taaaaaagat caagataatg 1921 aacattgggt atccatgtca gacctaatgg cagggctgat gatggttttt atgttcatat 1981 ctattgctta tatgcactac gtacgtattg aaaaagaaaa aattaaagaa gttgccgtag 2041 cctacgagaa tgctcagtta cagatttata atgctctgga tattgagttt gcaaaggatt 2101 tacaagactg ggatgcagag atcgataaac agactctgga ggttcgattt aaatcaccgg 2161 atgttttatt tggcttagga agcacagagc taaaaccaaa gtttaaactc attcttgacg 2221 acttctttcc tcgctaccta aaagttctag ataattatca ggaacatatt actgaagtcc 2281 gcattgaagg tcacacaagt actgactgga caggaacaac gaatcctgat attgcttatt 2341 ttaataatat ggcactatcg caaggtcgta cacgtgcagt attacaatac gtttatgaca 2401 taaaaaatat cgcgacacac caacaatggg ttaaaagtaa atttgccgca gtaggttatt 2461 catctgcaca tcccattctt gataaaaccg gcaaagagga ccctaatcgc tctcgtcgtg 2521 tcaccttcaa agttgtaaca aatgccgagt tgcagattag aaagattatt caggagtaag 2581 agatgaaatt atctatcgac atttcagaac ttattcaatt agggaagaaa atgttaccag 2641 aaggagtcga tttttttctg gatgaatccc ctattgactt tgatcctata gatattgagt 2701 tatccacggg taaagaagtt agtatcgaag atcttgaccc tggtagcggg cttatctctt 2761 atcatggccg ccaggttctt ttatatattc gggaccattc agggcgttat gatgcggcta 2821 tcgtagatgg cgaaaaagga aaacgttttc atattgcctg gtgcagaact cttgatgaaa 2881 tgcgccataa aaatcgattt gaaaggtatc atgcaactaa ccgcatagat ggtttattcg 2941 aaattgatga tggttcaggt cggagccagg atgttgattt acgggtatgt atgaattgcc 3001 tcgaacgact taattataaa ggaagtattg ataaacaacg aaaaagagag atttttaaat 3061 cattctcatt aaatgagttt ttttcagatt atagtacctg ttttcgtcat atgcctaagg 3121 gtatctatga caaaacaaat agtgggtatg tcgaaaactg gaaggaaata tctaaagaaa 3181 tacgagaaaa ggcaaattat gtttgtaatg attgtggcgt gaatttatca accgccaaaa 3241 acttgtgcca tgtccatcat aaaaatggca tcaaatatga taatcaccat gaaaaccttc 3301 ttgttctgtg caaggattgc catcgaaaac agcccctcca cgaaggtata ttcgttaccc 3361 aagcagagat ggctatcatt caacgtttac gttcccaaca agggttatta aaagcagaat 3421 cctggaatga aatatatgac ctgactgatc catcagtgca tggtgatatt aatatgatgc 3481 aacataaagg ctttcaacct cctgttcctg ggttagatct tcaaaactca gaacatgaaa 3541 ttattgcaac cgtagaagct gcatggccag gccttaaaat tgcagttaac cttactcccg 3601 ccgaagtcga aggatggaga atatataccg tgggtgagct ggttaaagaa atacaaaccg 3661 gagcctttac gccagcaaaa ttgtaaattc taaaactccg tgaaagttaa ggctttcacg 3721 gaagataaat aaagtttccc tgatttgtga ctcaaattac aaaagtagtt tatggcataa 3781 cttgtctgat ttttatggtg taacaggtat aaaagcatat gctatggttc gcctcatact 3841 taaaacttcc ctcatatggg tgaaggttaa agcttggtag acagaagaca gtcacaatga 3901 ataaagcaat aaattga.

The coding regions for each of the zorA, zorB, and zorE gene sequences within this embodiment of a Zorya Type II cassette (SEQ ID NO: 15) are as follows: nucleotides 213-1865 encode an embodiment of a ZorA polypeptide; nucleotides 1872-2579 encode an embodiment of a ZorB polypeptide; and nucleotides 2583-3686 encode an embodiment of a ZorE polypeptide.

In some embodiments, a Defense System Ib comprising a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide, is encoded by the nucleic acid sequence set forth in SEQ ID NO: 15. In some embodiments, a Defense System Ib comprising a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 15. In some embodiments, a Defense System Ib comprising a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 15. In some embodiments, a Defense System Ib comprising a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 15. In some embodiments, a Defense System Ib comprising a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 15.

In some embodiments, a construct comprising the ZORYA defense system encodes more than one component of the defense system but less than all of the components required for a functionally active defense system, whereby multiple constructs may be used to assemble the functional defense system. For example, in some embodiments each of ZorA, ZorB, ZorC, and ZorD may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional ZORYA Type I defense system. In some embodiments each of ZorA, ZorB, and ZorE may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional ZORYA Type II defense system.

In some embodiments, the components making up a functional ZORYA Type I anti-phage defense system comprise a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide, each encoded by a zorA, a zorB, a zorC, and a zorD gene, respectively.

In some embodiments, the components making up a functional ZORYA Type II anti-phage defense system comprise a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide, each encoded by a zorA, a zorB, and a zorE gene, respectively.

In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide and a ZorB polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide and a ZorC polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide and a ZorD polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide and a ZorE polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorC polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorD polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorA polypeptide, a ZorC polypeptide, and a ZorD polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorB polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorB polypeptide and a ZorC polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorB polypeptide and a ZorD polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorB polypeptide and a ZorE polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorC polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorC polypeptide and a ZorD polypeptide. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid encoding a ZorE polypeptide.

In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene and a zorB gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene and a zorC gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene and a zorD gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene and a zorE gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene, a zorB gene, and a zorC gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene, a zorB gene, and a zorD gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorA gene, a zorC gene, and a zorD gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorB gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorB gene and a zorC gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorB gene and a zorD gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorB gene and a zorE gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorC gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorC gene and a zorD gene. In some embodiments, a ZORYA defense system having an anti-phage activity comprise a nucleic acid comprising a zorE gene.

In some embodiments, a ZORYA defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is ZorA, ZorB, ZorC, and ZorD. In one embodiment, the 5′ to 3′ order of polypeptides encoded is ZorA, ZorB, and ZorE. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of ZorA, ZorB, ZorC, ZorD, and ZorD. In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of ZorA, ZorB, and ZorE.

In some embodiments, a ZORYA defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is zorA, zorB, zorC, and zorD (Defense System Ia). In some embodiment, the 5′ to 3′ order of genes is zorA, zorB, and zorE (Defense System Ib). In some embodiment, the 5′ to 3′ order of genes in a Defense System Ia is not zorA, zorB, zorC, and zorD. In some embodiment, the 5′ to 3′ order of genes in a Defense System Ib is not zorA, zorB, and zorE. In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of zorA, zorB, zorC, zorD, and zorD. In some embodiments, the 5′ to 3′ order of genes is random, for example any order of zorA, zorB, and zorE.

In some embodiments, the ZORYA Type I system (Defense System Ia) composition and order is as shown in FIG. 3C, FIG. 4A, and FIG. 4B. In some embodiments, the ZORYA Type II system (Defense System Ib) composition and order is as shown in FIG. 3C, FIG. 4D, and FIG. 4E.

In some embodiments, a ZORYA defense system having an anti-phage activity originates from a microbial genome (Table 8).

In some embodiments, a functional ZORYA defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. In some embodiments, a Zorya defense system (Defense system Ia; Defense system Ib) comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a Zorya defense system (Defense system Ia; Defense system Ib) comprises a combination of at least two polypeptides that do not naturally occur together. In some embodiments, a Zorya defense system (Defense system Ia; Defense system Ib) comprises a combination of at least three polypeptides that do not naturally occur together. In some embodiments, a Zorya defense system (Defense system Ia) comprises a combination of four polypeptides that do not naturally occur together. In some embodiments, a Zorya defense system (Defense system Ia; Defense system Ib) comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Zorya defense system (Defense system Ia; Defense system Ib) comprises a combination of at least two polypeptides that do not naturally occur together. In some embodiments, a functional Zorya defense system (Defense system Ia; Defense system Ib) comprises a combination of at least three polypeptides that do not naturally occur together. In some embodiments, a functional Zorya defense system (Defense system Ia) comprises a combination of four polypeptides that do not naturally occur together.

A skilled artisan would appreciate that the term “non-naturally occurring” may encompass in one embodiment, polypeptide that do not naturally occur together in nature. For example, polypeptide components that do not naturally occur together, either because they are from the same defense system found in a different strain of bacteria or because they comprise polypeptide components from different defense systems. In some embodiments, polypeptide components that do not naturally occur together, either because they are from the same defense system found in a different strain of a microorganism, or because they comprise polypeptide components from different defense systems. In some embodiments, the term “non-naturally occurring” may encompass a defense system or a functional defense system that is not found within a particular micro-organism in nature. In some embodiments, the term “non-naturally occurring” may encompass a defense system or a functional defense system that is not found within a particular bacteria in nature. In some embodiments, the term “non-naturally occurring” may encompass a combination of defense systems disclosed herein or a functional defense system disclosed herein that are not found within a particular micro-organism in nature. In some embodiments, the term “non-naturally occurring” may encompass a combination of defense systems disclosed herein or a functional defense systems disclosed herein that are not found within a particular bacteria in nature.

In some embodiments, introducing a defense system disclosed herein, or any combination of defense systems, into a bacterial strain that naturally lacks the defense system or system may be advantageous for the bacteria. In some embodiments, introducing a defense system disclosed herein, or any combination of defense systems, into a bacterial strain that naturally lacks the defense system or system may be biotechnologically useful in maintaining healthy bacteria used for example but not limited to, the food industry.

In some embodiments, a functional ZORYA defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a ZorA polypeptide may be one bacterial species from Table 8, the source of the nucleic acid sequence encoding a ZorB polypeptide may be a different bacterial species from Table 8, the source of the nucleic acid sequence encoding a ZorC polypeptide may be yet a different bacterial species from Table 8, and the source of the nucleic acid sequence encoding a ZorD polypeptide may be still a different bacterial species from Table 8. Similarly, the source of the nucleic acid sequence encoding a ZorA polypeptide may be one bacterial species from Table 8, the source of the nucleic acid sequence encoding a ZorB polypeptide may be a different bacterial species from Table 8, and the source of the nucleic acid sequence encoding a ZorE polypeptide may be still a different bacterial species from Table 8.

In some embodiments, the source of the nucleic acid encoding a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, and a ZorD polypeptide is the not the same. In some embodiments, the source of some of the components is the same, while the source of other components is not the same. In some embodiments, the source of the nucleic acid sequence of any of the components of a ZORYA Type I defense system comprises any of the species listed in Table 8.

In some embodiments, the source of the nucleic acid encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a ZorA polypeptide, a ZorB polypeptide, and a ZorE polypeptide is the not the same. In some embodiments, the source of some of the components is the same, while the source of other components is not the same. In some embodiments, the source of the nucleic acid sequence of any of the components of a ZORYA Type II defense system comprises any of the species listed in Table 8.

In some embodiments, a ZORYA defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a ZORYA system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria. A skilled artisan would appreciate that the ZORYA system is not present in the majority of bacterial species.

According to some embodiments, the ZORYA system components are located in a gene cluster in a microbial cell genome. According to some embodiments, the ZORYA system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous ZORYA defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional ZORYA defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 8. According to some embodiments, a prokaryotic cell expresses a non-endogenous ZORYA defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional ZORYA defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional ZORYA defense system is selected from the group consisting of the species listed in Table 8.

A skilled artisan would appreciate that the term “endogenous” may encompass the expression of a native gene in its natural location and with its natural expression level in the genome of an organism, for example a prokaryote. In some embodiments, an endogenous anti-nucleic acid defense system is found in bacterial or in archaeal cells. In some embodiments, an endogenous anti-nucleic acid defense system is found in bacterial cells. In some embodiments, an endogenous anti-nucleic acid defense system is found in archaeal cells.

In some embodiments, a ZORYA Type I defense system (Defense System Ia) components comprise ZorA, ZorB, ZorC and ZorD polypeptides. In some embodiments, a ZORYA Type I defense system components comprise functional portions of ZorA, ZorB, ZorC and ZorD polypeptides. In some embodiments, the ZORYA Type I defense system components are encoded by zorA, zorB, zorC and zorD genes.

In some embodiments, a ZORYA Type II defense system (Defense System Ib) components comprise ZorA, ZorB, and ZorE polypeptides. In some embodiments, a ZORYA Type II defense system components comprise functional portions of ZorA, ZorB, and ZorE polypeptides. In some embodiments, the ZORYA Type II defense system components are encoded by zorA, zorB, and zorE genes.

Non-limiting embodiments of endogenous ZORYA systems and the respective location of their components are provided in Table 8 herein.

In some embodiments, the components of a ZORYA system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

A skilled artisan would appreciate that the term “pfam” may encompass a large collection of protein domains and protein families maintained by the pfam consortium and available at several sponsored world wide web sites, including for example: pfam.sanger.ac.uk/ (Welcome Trust, Sanger Institute); pfam.sbc.su.se/ (Stockholm Bioinformatics Center); pfam(dot)janelia(dot)org/ (Janelia Farm, Howard Hughes Medical Institute); pfam(dot)jouy(dot)inra(dot)fr/ (Institut national de la Recherche Agronomique); and pfam.ccbb.re.kr/. pfam domains and families are identified using multiple sequence alignments and hidden Markov models (HMMs) (see e.g. R. D. Finnet et al. nucleic Acids Research Database (2010) Issue 38: D211-222). By accessing the pfam database, for example, using any of the above-reference websites, protein sequences can be queried against the hidden Markov models (HMMs) using HMMER homology search software (e.g., HMMER3, hmmer(dot)janelia(dot)org/).

A skilled artisan would appreciate that the term “COG (clusters of orthologous groups)” may encompass a large collection of protein families classified according to their homologous relationships available at e.g. the NCBI COG website (http://www(dot)ncbi(dot)nlm(dot)nih(dot)gov/COG). Each COG consists of a group of proteins found to be orthologous across at least three lineages and likely corresponds to an ancient conserved domain [see e.g. Tatusov et al. Science 1997 Oct. 24; 278(5338):631-7; and Tatusov et al. nucleic Acids Res. 2000 Jan. 1; 28(1): 33-36].

In some embodiments, a Defense System Ia comprises a membrane associated complex. In some embodiments, a Defense System Ib comprises a membrane associated complex.

In some embodiments, the term “ZorA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the zorA gene. In some embodiments, the term “ZorA” refers to a ZorA polypeptide. In some embodiments, the zorA gene encodes a polypeptide comprising a pfam01618 domain. In some embodiments, the zorA gene encodes a polypeptide comprising a COG0840 domain. In some embodiments, the zorA gene encodes a polypeptide comprising a pfam01618 domain and a COG0840 domain. In some embodiments, the ZorA polypeptide comprises a pfam01618 domain. In some embodiments, the ZorA polypeptide comprises a COG0840 domain. In some embodiments, the ZorA polypeptide comprises a pfam01618 domain and a COG0840 domain.

In some embodiments, the zorA gene encodes a polypeptide member of the MotA/TolQ/EXaB proton channel family. In some embodiments, the zorA gene encodes a polypeptide comprising 3 transmembrane helices.

In some embodiments, the ZorA polypeptide comprises a member of the MotA/TolQ/EXaB proton channel family. In some embodiments, the ZorA polypeptide comprises a member of a family comprising 3 transmembrane helices.

In some embodiments, ZorA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a ZorB, ZorC, ZorD, and or a ZorE polypeptide in a genome of a prokaryotic cell. In some embodiments, ZorA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a ZorB, ZorC, ZorD, and/or a ZorE polypeptide in a genome of a prokaryotic cell. In some embodiments, ZorA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a ZorB, ZorC, ZorD, and or ZorE polypeptide, or any combination thereof, in a genome of a prokaryotic cell.

In some embodiments, ZorA and ZorB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorA and ZorB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorA, ZorB, and ZorC are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorA, ZorB, and ZorC are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorA, ZorB, and ZorE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorA, ZorB, and ZorE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorA, ZorB, ZorC, and ZorD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorA, ZorB, ZorC, and ZorD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, zorA and zorB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorA, and zorB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorA, zorB, and zorC genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorA, zorB, and zorC genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorA, zorB, and zorE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorA, zorB, and zorE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorA, zorB, zorC, and zorD genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorA, zorB, zorC, and zorD genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a ZorA polypeptide is about 550 amino acids long (Median gene size).

In some embodiments, the ZorA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting the polypeptides referenced in Table 8, rows 2-1830 columns J and K. In some embodiments, the ZorA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns J and K.

A skilled artisan would appreciate that the terms “similar domain regions” encompasses but is not limited to pfam domains, COG domains, helices, membrane binding domains, transmembrane domains, structural domains, and enzyme active site domains.

In some embodiments, the ZorA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 8, rows 2-1830 columns J and K. In some embodiments, a homolog of a ZorA polypeptide comprises a member of the MotA/TolQ/EXaB proton channel family. In some embodiments, a homolog of ZorA polypeptide comprises 3 transmembrane helices. In some embodiments, the ZorA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns J and K.

A skilled artisan would appreciate that homology encompasses similarity of sequence attributed to descent from a common ancestor. Homologous biological components (genes, proteins, structures) are called homologs. The extent to which nucleotide or protein sequences are related. The similarity between two sequences (DNA, RNA, or amino acid) can be expressed as percent sequence identity and/or percent positive substitutions.

A skilled artisan would appreciate that the term “homolog” encompasses a gene or a polypeptide (a protein) that is related to a second gene or polypeptide (protein), respectively, by descent from a common ancestral DNA or polypeptide (protein) sequence, respectively. Thus, a homolog of a gene, in some embodiments, comprises a similar nucleotide sequence to the gene. In some embodiments, a gene homolog encodes an identical polypeptide as is encoded by the gene. In some embodiments, a gene homolog encodes a polypeptide with the same functional properties as is encoded by the gene. In some embodiments, a gene homolog encodes a polypeptide that comprises a similar amino acid sequence as the polypeptide encoded by the gene. In one embodiment, the polypeptide homolog comprises a similar amino acid sequence as the polypeptide. In some embodiments, the polypeptide homolog comprises the same functional properties as the polypeptide. In some embodiments, the polypeptide homolog comprises similar functional properties as the polypeptide. In some embodiments, the polypeptide homolog comprises a same domain(s) as the polypeptide. In some embodiments, the polypeptide homolog comprises a similar domain(s) as the polypeptide.

A skilled artisan would appreciate that percent homology or percent identity may be determined, for example but no limited to, using BlastP software of the National Center of Biotechnology Information (NCBI) using default parameters. The homolog may also refer to an ortholog, a deletion, insertion, or substitution variant, including an amino acid substitution. In some embodiments, sequence identity or homology can be determined using any protein or nucleic acid sequence alignment algorithm such as Blast, ClustalW, MUSCLE, and HHpred.

In some embodiments, gene homology and/or polypeptide homology can be based on shared motifs, for example but not limited to pfam domains, COG domains, DUF domains, transmembrane domains, and nuclease domains. In some embodiments, similarities of shared motifs are combined with the conserved size of the gene or the expression product in the different subtypes and the location of the gene in the gene cluster.

In some embodiments, the ZorA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns J and K. In some embodiments, the ZorA polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns J and K. In some embodiments, the ZorA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns J and K. In some embodiments, the ZorA polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns J and K. In some embodiments, the ZorA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns J and K.

In some embodiments, the ZorA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the ZorA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the ZorA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the ZorA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 95% identity within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the ZorA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L.

In some embodiments, the nucleic acid sequence of a zorA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the nucleic acid sequence of a zorA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the nucleic acid sequence of a zorA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the nucleic acid sequence of a zorA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L. In some embodiments, the nucleic acid sequence of a zorA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns J and L.

As used herein, the term “ZorB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the zorB gene. In some embodiments, the term “ZorB” refers to a ZorB polypeptide. In some embodiments, the product of the zorB gene comprises a pfam13677 domain. In some embodiments, the product of the zorB gene comprises a pfam00691 domain. In some embodiments, the product of the zorB gene comprises a pfam13677 domain and a pfam00691 domain. In some embodiments, the zorB gene encodes a member of MotB proton channel family. In some embodiments, the zorB gene encodes a polypeptide comprising a transmembrane helix.

In some embodiments, ZorB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a ZorA, ZorC, ZorD, and or a ZorE polypeptide in a genome of a prokaryotic cell. In some embodiments, ZorB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a ZorA, ZorC, ZorD, and/or a ZorE polypeptide in a genome of a prokaryotic cell.

In some embodiments, ZorA and ZorB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments ZorA and ZorB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorB and ZorC are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments ZorB and ZorC are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorB and ZorE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments ZorB and ZorE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorB, ZorC, and ZorD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorB, ZorC, and ZorD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, ZorB polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding zorA, zorC, and zorD, in a genome of a prokaryotic cell. In some embodiments, ZorB polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding zorA and zorE, in a genome of a prokaryotic cell.

In some embodiments, a ZorB polypeptide is about 217 amino acids long (median gene size).

In some embodiments, the ZorB polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O.

In some embodiments, the ZorB polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O. In some embodiments, a homology of the ZorB polypeptide comprises a MotB proton channel family member. In some embodiments, the ZorB polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O.

In some embodiments, the ZorB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O. In some embodiments, the ZorB polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O. In some embodiments, the ZorB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O. In some embodiments, the ZorB polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O. In some embodiments, the ZorB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1830 columns N and O.

In some embodiments, the ZorB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the ZorB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the ZorB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the ZorB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 95% identity within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the ZorB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P.

In some embodiments, the nucleic acid sequence of a zorB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the nucleic acid sequence of a zorB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the nucleic acid sequence of a zorB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the nucleic acid sequence of a zorB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P. In some embodiments, the nucleic acid sequence of a zorB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1830 columns N and P.

As used herein, the term “ZorC” refers to the polynucleotide or expression product e.g., polypeptide encoded by the zorC gene. In some embodiments, the term “ZorC” refers to a ZorC polypeptide. In some embodiments, the product of a zorC gene comprises a pfam15611 domain. In some embodiments, the product of a zorC gene comprises a EH signature domain.

In some embodiments, ZorC polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding ZorA, ZorB and/or ZorD in a genome of a prokaryotic cell. In some embodiments, ZorC polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding ZorA, ZorB and/or ZorD in a genome of a prokaryotic cell. In some embodiments, ZorC polypeptide is encoded by a gene positioned within 5 genes upstream and downstream to a gene encoding ZorA, ZorB and ZorD in a genome of a prokaryotic cell.

In some embodiments, ZorC and ZorD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ZorC and ZorD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, zorC and zorD genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, zorC and zorD genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a ZorC polypeptide is about 470 amino acids long (median gene size).

In some embodiments, the ZorC polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns R and S. In some embodiments, the ZorC polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns R and S. In some embodiments, the ZorC polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns R and S

In some embodiments, the ZorC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns R and S. In some embodiments, the ZorC polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns R and S. In some embodiments, a ZorC homolog comprises an EH signature domain. In some embodiments, the ZorC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns R and S. In some embodiments, the ZorC polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 column N. In some embodiments, the ZorC polypeptide comprises an amino acid sequence selected from the group consisting of SEQ ID NOs: the polypeptides referenced in Table 8, rows 2-1174 columns R and S.

In some embodiments, the ZorC polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the ZorC polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the ZorC polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the ZorC polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 95% identity within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the ZorC polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T.

In some embodiments, the zorC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the zorC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the nucleic acid sequence of a zorA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the nucleic acid sequence of a zorA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the nucleic acid sequence of a zorC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the nucleic acid sequence of a zorC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T. In some embodiments, the zorC gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns R and T.

As used herein, the term “ZorD” refers to the polynucleotide or expression product e.g., polypeptide encoded by the zorD gene. In some embodiments, the term “ZorD” refers to a ZorD polypeptide. In some embodiments, the product of the zorD gene comprises a pfam00176 domain. In some embodiments, the product of the zorD gene comprises a pfam00271 domain. In some embodiments, the product of the zorD gene contains a pfam00176 domain and a pfam00271 domain. In some embodiments, the product of the zorD gene comprises, a COG0553 domain. In some embodiments, the product of the zorD gene further contains a pfam04471 domain.

In some embodiments, a ZorD polypeptide comprises a pfam00176 domain. In some embodiments, a ZorD polypeptide comprises a pfam00271 domain. In some embodiments, a ZorD polypeptide comprises a pfam00176 domain and a pfam00271 domain. In some embodiments, a ZorD polypeptide comprises, a COG0553 domain. In some embodiments, a ZorD polypeptide comprises a pfam04471 domain. In some embodiments, a ZorD polypeptide comprises, a pfam00176 domain, a pfam00271 domain, a COG0553 domain, or a pfam04471 domain or any combination thereof. In some embodiments, a ZorD polypeptide comprises, a pfam00176 domain, a pfam00271 domain, a COG0553 domain, and a pfam04471 domain.

In some embodiments, a ZorD polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding ZorA, ZorB and/or ZorC in a genome of a prokaryotic cell. In some embodiments, a ZorD polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding ZorA, ZorB and/or ZorC in a genome of a prokaryotic cell. In some embodiments, ZorD polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding ZorA, ZorB and ZorC in a genome of a prokaryotic cell.

In some embodiments, a ZorD polypeptide is about 1200 amino acids long (median gene size).

In some embodiments, the ZorD polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W. In some embodiments, the ZorD polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W. In some embodiments, a ZorD polypeptide homologue comprises a SW12/SNF2 helicase. In some embodiments, a ZorD polypeptide homologue comprises a Mrr-like nuclease domain. In some embodiments, the ZorD polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W. In some embodiments, the ZorD polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W.

In some embodiments, the ZorD polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W. In some embodiments, the ZorD polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W.

In some embodiments, the ZorD polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W. In some embodiments, the ZorD polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W. In some embodiments, the ZorD polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 columns V and W.

In some embodiments, the ZorD polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X. In some embodiments, the ZorD polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X. In some embodiments, the ZorD polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X. In some embodiments, the ZorD polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X. In some embodiments, the ZorD polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X.

In some embodiments, the zorD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X. In some embodiments, the zorD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X. In some embodiments, the nucleic acid sequence of a zorD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X. In some embodiments, the nucleic acid sequence of a zorD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 2-1174 column P. In some embodiments, the nucleic acid sequence of the zorD gene is selected from the group consisting of the polynucleotides referenced in Table 8, rows 2-1174 columns V and X.

As used herein, the term “ZorE” refers to the polynucleotide or expression product e.g., polypeptide encoded by the zorE gene. In some embodiments, the term “ZorE” refers to a ZorE polypeptide. In some embodiments, the product of the zorE gene comprises a pfam01844 domain. In some embodiments, the product of the zorE gene comprises a COG3183 domain. In some embodiments, the product of the zorE gene contains a pfam01844 domain and a COG3183 domain. In some embodiments, the product of the zorE gene comprises an HNH endonuclease.

In some embodiments, a ZorE polypeptide comprises a pfam01844 domain. In some embodiments, a ZorE polypeptide comprises a COG3183 domain. In some embodiments, a ZorE polypeptide comprises a pfam01844 domain and a COG31383 domain. In some embodiments, a ZorE polypeptide comprises a HNH endonuclease.

In some embodiments, a ZorE polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding ZorA and/or ZorB in a genome of a prokaryotic cell. In some embodiments, a ZorE polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding ZorA and/or ZorB in a genome of a prokaryotic cell. In some embodiments, ZorE polypeptide is encoded by a gene positioned within 5 genes upstream and downstream to a gene encoding ZorA and/or ZorB in a genome of a prokaryotic cell.

In some embodiments, a ZorE polypeptide is about 367 amino acids long (median gene size).

In some embodiments, the ZorE polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA. In some embodiments, the ZorE polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA. In some embodiments, a ZorE polypeptide homologue comprises a HNH endonuclease. In some embodiments, the ZorE polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA. In some embodiments, the ZorE polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA.

In some embodiments, the ZorE polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA. In some embodiments, the ZorE polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA. In some embodiments, the ZorE polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA. In some embodiments, the ZorE polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA. In some embodiments, the ZorE polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 8, rows 1175-1830 columns Z and AA.

In some embodiments, the ZorE polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the ZorE polypeptide comprises the amino acid sequence encoded from a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the ZorE polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the ZorE polypeptide comprises the amino acid sequence encoded from a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the ZorE polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB.

In some embodiments, the zorE gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the zorE gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the nucleic acid sequence of a zorE gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the nucleic acid sequence of a zorE gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within the nucleotide sequence encoding similar domain regions as a sequence selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB. In some embodiments, the nucleic acid sequence of the zorE gene is selected from the group consisting of the polynucleotides referenced in Table 8, rows 1175-1830 columns Z and AB.

A skilled artisan would appreciate that a “functional portion of a Defense System I component” or “functional fragment of Defense System I component” or “functional portion of a ZORYA defense system component” or “functional fragment of ZORYA defense system component” refers to a functional portion of a ZORYA polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other ZORYA polynucleotides or polypeptides disclosed herein or functional portions thereof.

As used herein, the terms “ZorA”, “ZorB”, “ZorC”, “ZorD”, “ZorE”, “zorA”, “zorB”, “zorC”, “zorD”, and “zorE”, also refer to functional ZorA, ZorB, ZorC, ZorD, ZorE, zorA, zorB, zorC, zorD, and zorE, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptides referenced in Table 8, rows 2-1830 columns J and K; rows 2-1830 columns N and O; rows 2-1174 columns R and S; rows 2-1174 columns V and W; and rows 1175-1830 columns Z and AA, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical to the polynucleotide referenced in Table 8, rows 2-1830 columns J and L; rows 2-1830 columns N and P; rows 2-1174 columns R and T; rows 2-1174 columns V and X; and rows 1175-1830 column Z and AB, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology within similar domain regions of the polypeptide referenced in Table 8, rows 2-1830 columns J and K; rows 2-1830 columns N and O; rows 2-1174 columns R and S; rows 2-1174 column V and W; and rows 1175-1830 column Z and AA, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity within nucleotide sequences encoding similar domain regions to the polynucleotide referenced in Table 8, rows 2-1830 columns J and L; rows 2-1830 columns N and P; rows 2-1174 columns R and S; rows 2-1174 columns V and X; and rows 1175-1830 columns Z and AB, respectively.

Table 8 presents embodiments of components of Defense System Ia and Defense System Ib that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 8 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System Ia and Defense System Ib (referenced in Table 18).

The Thoeris Defense System

In some embodiments, a defense system disclosed herein comprises a Thoeris anti-phage defense system. (Table 9)

In some embodiments, a Thoeris defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Thoeris defense system (Defense System II) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Thoeris defense system provides a host cell with resistance to at least one phage. In some embodiments, expression of a Thoeris defense system in bacteria protects the bacteria from phage infection. In some embodiments, expression of a Thoeris defense system in bacteria protects the bacteria from plasmid transformation. In some embodiments, expression of a Thoeris defense system in bacteria protects the bacteria from phage infection and from plasmid transformation.

In some embodiments, a Thoeris defense system provides a host cell with resistance to phage infection. In some embodiments, a Thoeris defense system provides a host cell with resistance to plasmid transformation.

In some embodiments, expression of a Thoeris defense system in bacteria protects the bacteria from phage infection.

As used herein, the term “a Thoeris anti-phage defense system” may be used interchangeably with the term “a Defense System II”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Thoeris system” may be used interchangeably in some embodiments with “Thoeris defense system”, “Thoeris the defense system”, “Thoeris anti-phage system”, and “Defense System II”, having all the same meanings and qualities.

In some embodiments, a Thoeris defense system (Defense System II) provides a host cell with resistance to plasmid transformation. In some embodiments, a host cell expressing a functional Thoeris defense system (Defense System II) provides a host cells with resistance to plasmid transformation.

In some embodiments, a Thoeris defense system (Defense system II) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Thoeris defense system (Defense System II) provides the host cell resistance from entry of conjugative elements.

In some embodiments, a microbial species does not comprise an endogenous Defense System II. In some embodiments, a microbial species does not express an endogenous Defense System II. In some embodiments, a microbial species does not express an endogenous functional Defense System II.

In some embodiments, a bacterial species does not comprise an endogenous Defense System II. In some embodiments, a bacterial species does not express an endogenous Defense System II. In some embodiments, a bacterial species does not express an endogenous functional Defense System II.

A Thoeris defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a ThsA polypeptide comprising a pfam13289 domain, and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289, or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a thsA gene and a thsB gene. In some embodiments, a Thoeris defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a thsA gene and multiple copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 2 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 3 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 4 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 5 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 6 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 7 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 8 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 9 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 9 copies of a thsB gene. In some embodiments, a Thoeris defense system comprises 1-10 copies of a thsB gene.

In some embodiments, each copy of a thsB gene comprises the same nucleotide sequence. In some embodiments, each copy of a thsB gene comprises a different nucleotide sequence. In some embodiments, each copy of a thsB gene encodes a ThsB polypeptide having the same amino acid sequence. In some embodiments, each copy of a thsB gene encodes a ThsB polypeptide having a different amino acid sequence. In some embodiments, the source of the different nucleotide sequences comprises different donor species. In some embodiments, the source of the difference amino acid sequences comprises different donor species

A Thoeris defense system (Defense System II) comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and a ThsB polypeptide comprising a pfam08937 domain or a pfam13676 domain or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ThsA polypeptide and a ThsB polypeptide. In some embodiments, a Thoeris defense system comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ThsA polypeptide and 1-10 ThsB polypeptides.

In some embodiments, a Thoeris defense system (Defense System II) comprises a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) comprises a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1-10 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or a combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1-10 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289, or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1-5 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof.

In some embodiments, a Thoeris defense system (Defense System II) comprises at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) comprises at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1-10 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or a combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1-10 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289, or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1-5 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof. In some embodiments, a Thoeris defense system (Defense System II) having an anti-phage activity comprises at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 or a pfam14519 domain or a combination thereof, and 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 ThsB polypeptides comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a pfam13289 or a pfam14519 or a pfam08357 domain or any combination thereof.

In some embodiments, a Defense System II comprises a ThsA polypeptide comprising a pfam13289 domain or a pfam14519 domain or a combination thereof, or comprises an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns I and J; or a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or a combination thereof, or comprises an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD, or a combination thereof; or a combination thereof.

In some embodiments, the amino acid sequences of more than one copy of a Thsb polypeptide present in a Defense System II are identical. In some embodiments, the amino acid sequences of more than one copy of a Thsb polypeptide present in a Defense System II are homologous. In some embodiments, the amino acid sequences of more than one copy of a Thsb polypeptide present in a Defense System II are not identical. In some embodiments, the amino acid sequences of more than one copy of a Thsb polypeptide present in a Defense System II comprise the same functional activity.

In some embodiments, a Thoeris defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ThsA polypeptide and a ThsB polypeptide. In some embodiments, the Thoeris system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ThsA polypeptide and encoding 1-10 copies of a ThsB polypeptide. In some embodiments, a Thoeris defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a thsA gene and a thsB gene. In some embodiments, a Thoeris defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a thsA gene and 1-10 copies of a thsB gene.

In some embodiments, the Thoeris anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising thsA and thsB genes. In some embodiments, the Thoeris anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising thsA and 1-10 copies of a thsB genes. In some embodiments, the Thoeris anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising thsA and 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 copies of a thsB genes.

In some embodiments, a Thoeris (Defense System II) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 10; construct 31 Table 4) 1 atgtttttag aaatttataa ttaatttact aatatattgc gataattaga accatttgaa 61 ttacagaagt gccaccaacg aggaagcaat caattaaata gtaagtttaa taattttatt 121 aagaaattga tttgttatac gaaattttat tatatgataa aatatttatg taataaatgt 181 aaatttgtat attaggtaag gggaatgaaa atgaatccaa tagttgaact atttattaaa 241 gattttacaa aagaagttat ggaagagaat gctgcaattt ttgcaggagc gggtttatca 301 atgtctgttg ggtatgttag ttgggcgaag ttattggagc ctattgctca agaaattgga 361 ttagatgtaa ataaagaaaa tgatttagta agcttggcgc aatattattg taatgagaat 421 cagggtaata gaggtagaat taatcaaatt atcctagatg aattttctcg aaaagtagat 481 ttaactgaaa atcacaaaat tttagctcga ttaccaattc atacttattg gacgacaaat 541 tatgataggt taattgaaaa ggcattagaa gaagaaaata agattgctga tgtaaagtat 601 acggtaaaac aattagctac tacaaaggta aaaagagatg cagttgtata taaaatgcat 661 ggagacgtgg aacatccctc tgaggcagtt ttgattaaag atgattatga aaagtattct 721 ataaaaatgg atccgtatat taaggcgttg agtggggatc tagtttctaa gacattttta 781 tttgttggat ttagttttac tgatcccaat ctagattata tattaagtcg agtaaggagt 841 gcttatgaaa gggatcaaag aagacactat tgtttaataa aaaaagaaga gcgaagacca 901 gatgaattag aggcggattt tgagtataga gtaagaaaac aggaattatt tattagtgat 961 ttatcacgtt ttaatataaa gactattgta cttaataatt acaatgagat taccgagata 1021 ttacaacgaa ttgaaaataa tataaaaact aaaacagtat ttttatctgg tagtgcggtt 1081 gaatataatc attgggagac agaacatgct gaacaattca ttcatcagtt aagtaaagaa 1141 ttaattagaa aggattttaa tatagtatct ggttttggac ttggtgtagg gagttttgtt 1201 atcaatggag ttctagaaga attgtatatg aaccagggaa ctatagatga tgatagactt 1261 attctaagac cgtttccaca ggggaaaaag ggcgaagagc aatgggataa atatagacga 1321 gatatgatta caagaactgg ggtaagcatc tttttatatg gaaataaaat agacaaggga 1381 caggttgtta aggctaaggg tgtccaatct gaatttaata tttcttttga acaaaataat 1441 tacgttgttc cggtaggtgc aactggttat attgcaaaag atttatggaa taaagtaaat 1501 gaggaatttg aaacgtatta cccaggtgct gatgcaagga tgaaaaaatt gttcggagaa 1561 ttgaataatg aagcattatc aatagaggaa ctgattaaca ctataataga gtttgtagaa 1621 atcctatcca actaatcatt actgattatt aatcagagag gaactgttaa attatggcga 1681 aaagagtttt ttttagtttc cattatcaag atgtaattga ttttagagta aatgttgtaa 1741 gaaatcattg ggtaacaaaa ttaaatcaaa gtgctgcggg ggtctttgat gcatctcttt 1801 gggaagatgc aaaaaaaaca agtgatatag cacttaaaag attaataaat ggcgggctaa 1861 acaatacctc agttacatgt gttttaattg gatctcagac ttttaataga agatgggtga 1921 gatatgaaat tatgaaaagt atagaaaaag gaaataagat aataggaatt catattaatg 1981 cttttaaaga taaatatgga aatattaaaa gtaaagggcc taatcctttc gattatttag 2041 ggtatcaata tagttcagac ggcaaacagt tacatttgta tgagtggaca gggggaaaat 2101 gggaggaata taaggatttg gcaccatata gggtgaatca aattgctcca gaatcactta 2161 gaggaaaatt ctatagtttg tcatcggttt atcgtgtgta tgattgggtt gctgatgatg 2221 gatataacaa attttcctct tgggtgaact aattaagttt tggataaaat tataaataga 2281 attgctattg ggattagata caaaatgatt aaataagaaa agtacctata aaagtaggtg 2341 cttttttctt tgttatatag aaattacaca ttaatttata tttaggttat tttaaaaaga 2401 aaaagtgatg aatgatggta ttcttacaat taatagttac ttataactat atgtacatga 2461 aaaacatcta tatatgc.

The coding regions for each of the thsA and thsB gene sequences within this embodiment of a Thoeris cassette (SEQ ID NO: 10) are as follows: nucleotides 205-1635 encode a ThsA polypeptide; and nucleotides 1674-2252 encode a ThsB polypeptide.

In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 10. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 10. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 10. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 10. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 10.

In some embodiments, a Thoeris (Defense System II) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 11; construct 32 Table 4) 1 gttaagcttt aggcggacat cagcaacgat gtccgctttt atcatcttaa cagcaataca 61 aggaggttta cgtggcggat gaaactctga aacagtatat gggcctgtac aaatgttgtt 121 agcaatctca agaaagccca ggagtagata tgattcactg aacagatgtt caatttaaat 181 ctaataatga agagggccta gtcaaaggcg ctcttcatta ttagataaga cataatcatt 241 acacaagatt tatgtcatgg ttctatattc atattttcat tgtaataaat tgaaaatatg 301 aatataatag gtagtgatcg caatactaac attggaggtt ttatgtggaa gtttaaagaa 361 ttaataagag ataagacatt tagaaggtgg gctctgagta taattctgac tattccaact 421 agtgtgagta cattcatttc atttctagac ttggatgctc gttgtagatt aattatttta 481 cttatattag tagggttgtc gctagtcata ataattgttc aattcattag actacttttt 541 atgaataata tcactcttaa tctcaatggt tccgaagttg aaattaaaaa aggtgatatt 601 tttgaagtgc caagaaataa ttataaagtc attgcattta atgagtattt tgacactcaa 661 gtagatgacg taataatcgc ccgcgaaaca ttaaatggtc aatatataaa gcgttattat 721 tcacatcaag atatcactga gttggatcag aaaattaaag atgacgtaaa acttaaaatt 781 gaagaaaaaa atgttgaaag accttttgga ggaaaaacaa cacgttacag cttgggatca 841 gtctttaaag atatggattt ttttctagtt gctttttcga agtttgatag ggaaaatcgt 901 gcccaattaa aactaaatga atatgcaagc tgcatgctta atgtatggaa tgaaatcaat 961 acattacatg caagcaaaga agtgtttatc cccttattag gttctggaat aacaagacat 1021 gtggattctg atgttggagt caatgaacta ttacatataa tgttgtggac atttcagatc 1081 agtaaagtaa agtttagaga accagccaaa gttacaattc ttttgtacaa aaatgatcac 1141 aagaagatca atttttataa gttaaaggag tttgagaaga atgggttata ggaatggaaa 1201 ttatgctgct ttctatgtca gtgaaccgtt tagtgaaagt agtttagggg ctaatgcaac 1261 caaggatttt gtgtcgtata acatgttaag agcatggaaa ggaaaagata ataactaccc 1321 atttaatgac tcccacgata aaacatacaa tgtacgggac ggtagtgatt gggagaaaac 1381 attaaagcca agattaagaa aaagattaga tcaatcaaaa aatataatct tttttttaag 1441 taagcatact gaaaacagca aagctttgcg agaagaaatt gattacggta ttaatgtgaa 1501 ggggctacca gttatcgttg tataccctga actttccgaa aagagtgaca tcatcgactg 1561 cactacaaag gttttcagat cagaagtggt gaatttatgg agtcgagtcc ctgtttttaa 1621 agactctatg ctaaaggtac caactattca tattccttat aaaaaagacc aaattaaaaa 1681 agctttagag aacaaagatt ttatgattaa ttcaaagatt tctgcaggtt cggtttattt 1741 ttatccatgt taatctatta tgggtgaata taatttaaag agaaagaata gattttcagt 1801 ttcgtcctca tggtagctca ttaattcaaa aacctctatg accaatttaa tttattgagg 1861 aggtagaggt tttggtatta aaatgatgaa gatagattat tggatatgaa tttcatttta 1921 tctagtttac ataatatata ttctaggaag ttaaatcttt aatgaaaatt ctgtctcgtt 1981 atcttaagtg tacttagttg gtgagacaga attaaaaaaa taggatgtat tacgatttgt 2041 atttatttct.

The coding regions for each of the thsA and thsB gene sequences within this embodiment of a Thoeris cassette (SEQ ID NO: 11) are as follows: nucleotides 298-1191 encode a ThsA polypeptide; and nucleotides 1181-1753 encode a ThsB polypeptide.

In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 11. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 11. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 11. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 11. In some embodiments, a Defense System II comprising a ThsA polypeptide and a ThsB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 11.

In some embodiments, a construct comprising the Thoeris defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Thoeris defense system comprise genes thsA and thsB. In some embodiments, multiple thsB genes are present in the gene cassette of the defense system locus. In some embodiments, the components of a Thoeris defense system consist of genes thsA and thsB, wherein the copy number of the thsB gene is between 1 and 10. In some embodiments, the components of a Thoeris defense system comprise nucleic acid sequences encoding a ThsA polypeptide and a ThsB polypeptide. In some embodiments, the components of a Thoeris defense system consist of nucleic acid sequences encoding a ThsA polypeptide and a ThsB polypeptide. In some embodiments, the components of a Thoeris defense system consist of nucleic acid sequences encoding a ThsA polypeptide and 1-10 copies of a ThsB polypeptide. In some embodiments, the components of a Thoeris defense system consist of nucleic acid sequences encoding a ThsA polypeptide and 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 copies of a ThsB polypeptide.

In some embodiments, a construct comprising the Thoeris defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Thoeris defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of ThsA and ThsB may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Thoeris defense system.

In some embodiments, the components making up a functional Thoeris anti-phage defense system comprise a ThsA polypeptide and a ThsB polypeptide, each encoded by a thsA and a thsB gene, respectively.

In some embodiments, a Thoeris defense system having an anti-phage activity comprise a nucleic acid encoding a ThsA polypeptide. In some embodiments, a Thoeris defense system having an anti-phage activity comprise a nucleic acid encoding a ThsA polypeptide and a ThsB polypeptide.

In some embodiments, a Thoeris defense system having an anti-phage activity comprise a nucleic acid comprising a thsA gene. In some embodiments, a Thoeris defense system having an anti-phage activity comprise a nucleic acid comprising a thsA gene and a thsB gene. In some embodiments, a Thoeris defense system having an anti-phage activity comprise a nucleic acid comprising a thsA gene and 1-10 thsB genes.

In some embodiments, a Thoeris defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is ThsA and ThsB. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of ThsA and ThsB. In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of ThsA and 1-10 copies of ThsB, wherein ThsB may be encoded both 5′ and 3′ of the gene encoding the ThsA.

In some embodiments, a Thoeris defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is thsA and thsB. In some embodiment, the 5′ to 3′ order of genes in a Thoeris defense system is not thsA and thsB. In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of thsA and thsB. In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of thsA and 1-10 copies of thsB, wherein thsB may be both 5′ and 3′ of thsA.

In some embodiments, the Thoeris system (a Defense System II) composition and order is as shown in FIG. 3B or FIG. 5A.

In some embodiments, a Thoeris defense system having an anti-phage activity originates from a microbial genome (Table 9). A skilled artisan would appreciate that the Thoeris system is not present in the majority of bacteria and or archaea species.

In some embodiments, a functional Thoeris defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. For example, the source of the nucleic acid sequence encoding a ThsA polypeptide may be one microbial species, while the source of the nucleic acid sequence encoding a ThsB polypeptide may be a different microbial species. In some embodiments, a functional Thoeris defense system (Defense system II) comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Thoeris defense system (Defense system II) comprises a combination of at least two polypeptides that do not naturally occur together. In some embodiments, a functional Thoeris defense system (Defense system II) comprises a combination of at least three polypeptides that do not naturally occur together.

In some embodiments, a functional Thoeris defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a ThsA polypeptide may be one bacterial species, while the source of the nucleic acid sequence encoding a ThsB polypeptide may be a different bacterial species.

In some embodiments, the source of the nucleic acid encoding a ThsA polypeptide and a ThsB polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a ThsA polypeptide and a ThsB polypeptide is the not the same. A skilled artisan would appreciate that the term “ThsB polypeptide” may in some embodiments, be used interchangeably with “ThsB^(i) polypeptide”, “ThsB^(ii) polypeptide”, “ThsB^(iii) polypeptide”, “ThsB^(iv) polypeptide”, and “ThsB^(v) polypeptide”, wherein the supra numbers I, ii, iii, iv, and v, indicate additional copies of a ThsB polypeptide comprised in embodiments of a Defense System II. Similarly, skilled artisan would appreciate that the term “thsB gene” may in some embodiments, be used interchangeably with “thsB^(i) gene”, “thsB^(ii) gene”, “thsB^(iii) gene”, “thsB^(iv) gene”, and “thsB^(v) gene”, wherein the supra numbers i, ii, iii, iv, and v, indicate additional copies of a thsB gene encoding ThsB polypeptides comprised in embodiments of a Defense System II.

In some embodiments, the source of the nucleic acid sequence of any of the components of a Thoeris defense system comprises any of the species listed in Table 9.

In some embodiments, a Thoeris defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Thoeris system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to Proteobacteria, Firmicutes, Bacteriodetes, and Actinobacteria.

According to some embodiments, the Thoeris system components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Thoeris system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Thoeris defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Thoeris defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 9. According to some embodiments a prokaryotic cell expresses a non-endogenous Thoeris defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Thoeris defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Thoeris defense system is selected from the group consisting of the species listed in Table 9.

In some embodiments, Thoeris defense system components comprise ThsA and ThsB polypeptides. In some embodiments, a Thoeris defense system components comprise functional portions of ThsA and ThsB polypeptides. In some embodiments, the Thoeris defense system components are encoded by thsA and thsB genes.

Non-limiting embodiments of endogenous Thoeris systems and the respective location of their components are provided in Table 9 herein.

In some embodiments, the components of a Thoeris system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, a Defense System II comprises a membrane associated complex.

In some embodiments, the term “ThsA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the thsA gene. In some embodiments, the term “ThsA” refers to a ThsA polypeptide. In some embodiments, the thsA gene encodes a polypeptide comprising a pfam13289 domain. In some embodiments, the thsA gene encodes a polypeptide comprising a pfam14519 domain. In some embodiments, the thsA gene encodes a polypeptide comprising a pfam13289 domain and a pfam14519 domain. In some embodiments, the ThsA polypeptide comprises a pfam13289 domain. In some embodiments, the ThsA polypeptide comprises a pfam14519 domain. In some embodiments, the ThsA polypeptide comprises a pfam13289 domain and a pfam14519 domain.

In some embodiments, the thsA gene encodes a polypeptide comprising a Sir2/Macro domain (NAD binding). In some embodiments, the thsA gene encodes a polypeptide comprising N-terminal transmembrane helices. In some embodiments, the thsA gene encodes a polypeptide comprising a Sir1/Macro domain (NAD binding) and N-terminal transmembrane helices.

In some embodiments, the ThsA polypeptide comprises a Sir2/Macro domain (NAD binding). In some embodiments, the ThsA polypeptide comprises N-terminal transmembrane helices. In some embodiments, the ThsA polypeptide comprises a Sir1/Macro domain (NAD binding) and N-terminal transmembrane helices.

In some embodiments, ThsA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a ThsB polypeptide in a genome of a prokaryotic cell. In some embodiments, ThsA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a ThsB polypeptide in a genome of a prokaryotic cell. In some embodiments, ThsA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a ThsB polypeptide in a genome of a prokaryotic cell.

In some embodiments, ThsA and ThsB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ThsA and ThsB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, nucleic acid encoding additional copies of ThsB is positions 3′ of the nucleic acid sequence first encoding a ThsB polypeptide.

In some embodiments, thsA and thsB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, thsA and thsB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, additional thsB genes are positions 3′ of the first thsB gene, e.g., the order of a gene cassette with 2 copies of a thsB gene would be thsA, thsB, thsB.

In some embodiments, a ThsA polypeptide is about 477 amino acids long (median gene size).

In some embodiments, the ThsA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, a homolog of a ThsA polypeptide comprises a Sir2/Macro domain (NAD binding). In some embodiments, a homolog of ThsA polypeptide comprises N-terminal transmembrane helices. In some embodiments, a homolog of a ThsA polypeptide comprises a Sir1/Macro domain (NAD binding) and N-terminal transmembrane helices.

In some embodiments, the ThsA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J. In some embodiments, the ThsA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns I and J.

In some embodiments, the ThsA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the ThsA polypeptide comprises the amino acid sequence encoded from a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the ThsA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the ThsA polypeptide comprises the amino acid sequence encoded from a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the ThsA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K.

In some embodiments, the nucleic acid sequence of a thsA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the nucleic acid sequence of a thsA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the nucleic acid sequence of a thsA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequences encoding similar domain sequences with a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the nucleic acid sequence of a thsA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within nucleotide sequences encoding similar domain regions with a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K. In some embodiments, the nucleic acid sequence of a thsA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns I and K.

As used herein, the term “ThsB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the thsB gene. In some embodiments, the term “ThsB” refers to a ThsB polypeptide. In some embodiments, the product of the thsB gene comprises a pfam08937 domain or a pfam08357 domain. In some embodiments, the thsB gene encodes a Toll/interleukin-1 receptor (TIR) domain.

In some embodiments, ThsB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a ThsA polypeptide in a genome of a prokaryotic cell. In some embodiments, ThsB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a ThsA polypeptide in a genome of a prokaryotic cell. In some embodiments, ThsB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a ThsA polypeptide in a genome of a prokaryotic cell.

In some embodiments, ThsA and ThsB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments ThsA and ThsB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, additional ThsB polypeptides are encoded by genes positioned 3′ of the first gene encoding ThsB. In some embodiments ThsA and ThsB (1-10 copies) are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a ThsB polypeptide is about 195 amino acids long (median gene size).

In some embodiments, the ThsB polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD. In some embodiments, the ThsB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD. In some embodiments, a homologue of the ThsB polypeptide comprises a TIR domain. In some embodiments, the ThsB polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD.

In some embodiments, the ThsB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD. In some embodiments, the ThsB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD. In some embodiments, the ThsB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD. In some embodiments, the ThsB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD. In some embodiments, the ThsB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 9, rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD.

In some embodiments, the ThsB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the ThsB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the ThsB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the ThsB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the ThsB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE.

In some embodiments, the nucleic acid sequence of a thsB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the nucleic acid sequence of a thsB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the nucleic acid sequence of a thsB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequences encoding similar domain sequences with a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the nucleic acid sequence of a thsB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within nucleotide sequences encoding similar domain regions with a sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE. In some embodiments, the thsB gene homolog encodes a polypeptide comprising a helicase activity. In some embodiments, the thsB gene homolog encodes a polypeptide comprising a DEAx box helicase activity. In some embodiments, the nucleic acid sequence of a thsB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 9, rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE.

A skilled artisan would appreciate that a “functional portion of a Defense System II component” or “functional fragment of Defense System II component” or “functional portion of a Thoeris defense system component” or “functional fragment of Thoeris defense system component” refers to a functional portion of a Thoeris polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Thoeris polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “ThsA”, “ThsB”, “thsA”, and “thsB”, also refer to functional ThsA, ThsB, thsA, and thsB, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences referenced in Table 9, rows 2-2100 columns I and J, M and N, Q and R, U and V, Y and Z, and SAC and AD, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical to the polynucleotide sequences referenced in Table 9, rows 2-2100 columns I and K, M and O, Q and S, U and W, Y and AA, and SAC and AE, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology within similar domain regions of the polypeptide sequences referenced in Table 9, rows 2-2100 columns I and J, M and N, Q and R, U and V, Y and Z, and AC and AD, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity within nucleotide sequences encoding similar domain regions to the polynucleotide sequences referenced in Table 9, rows 2-2100 columns I and K, M and O, Q and S, U and W, Y and AA, and AC and AE, respectively.

Table 9 presents embodiments of components of Defense System II that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 9 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System II (referenced in Table 18).

The Druantia Defense System

In some embodiments, a defense system disclosed herein comprises an Druantia anti-phage defense system. (Table 10) In some embodiments, a Druantia defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Druantia defense system (Defense System IIIa; Defense System IIIb; or Defense System IIIc) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Druantia defense system provides a host cell with resistance to at least one phage.

In some embodiments, a Druantia defense system provides a host cell with resistance to phage infection. In some embodiments, expression of a Druantia defense system in bacteria protects the bacteria from phage infection.

As used herein, the term “a Druantia anti-phage defense system” may be used interchangeably with the term “a Defense System III”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Druantia system” may be used interchangeably in some embodiments with “Druantia defense system”, “Druantia the defense system”, “Druantia anti-phage system”, and “Defense System III”, having all the same meanings and qualities. Disclosed herein, the Druantia defense system (Defense System III) comprises a Type I Druantia defense system (Defense System IIIa), a Type II Druantia defense system (Defense System IIIb), and a Type III Druantia defense system (Defense system IIIc), as described below.

In some embodiments, expression of a Druantia Type I defense system (Defense System IIIa) in bacteria protects the bacteria from phage infection. In some embodiments, expression of a Druantia Type II defense system (Defense System IIIb) in bacteria protects the bacteria from phage infection. In some embodiments, expression of a Druantia Type III defense system (Defense System IIIc) in bacteria protects the bacteria from phage infection.

In some embodiments, expression of a Druantia defense system in bacteria protects the bacteria from phage infection.

In some embodiments, a Druantia defense system (Defense System IIIa or Defense system IIIb or Defense System IIIc) provides a host cell with resistance to plasmid transformation. In some embodiments, a host cell expressing a functional Druantia defense system (Defense System IIIa or Defense System IIIb or Defense System IIIc) provides a host cells with resistance to plasmid transformation.

In some embodiments, a Druantia defense system (Defense system IIIa or IIIb or IIIc) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Druantia defense system (Defense System IIIa or IIIb or IIIc) provides the host cell resistance from entry of conjugative elements.

In some embodiments, a microbial species does not comprise an endogenous Defense System III. In some embodiments, a microbial species does not express an endogenous Defense System III. In some embodiments, a microbial species does not express an endogenous functional Defense System III.

In some embodiments, a bacterial species does not comprise an endogenous Defense System III. In some embodiments, a bacterial species does not express an endogenous Defense System III. In some embodiments, a bacterial species does not express an endogenous functional Defense System III.

In some embodiments, a microbial species does not comprise an endogenous Defense System IIIa. In some embodiments, a microbial species does not express an endogenous Defense System IIIa. In some embodiments, a microbial species does not express an endogenous functional Defense System IIIa.

In some embodiments, a bacterial species does not comprise an endogenous Defense System IIIA. In some embodiments, a bacterial species does not express an endogenous Defense System IIIa. In some embodiments, a bacterial species does not express an endogenous functional Defense System IIIa.

In some embodiments, a microbial species does not comprise an endogenous Defense System IIIb. In some embodiments, a microbial species does not express an endogenous Defense System IIIb. In some embodiments, a microbial species does not express an endogenous functional Defense System IIIb.

In some embodiments, a bacterial species does not comprise an endogenous Defense System IIIb. In some embodiments, a bacterial species does not express an endogenous Defense System IIIb. In some embodiments, a bacterial species does not express an endogenous functional Defense System IIIb.

In some embodiments, a microbial species does not comprise an endogenous Defense System IIIc. In some embodiments, a microbial species does not express an endogenous Defense System IIIc. In some embodiments, a microbial species does not express an endogenous functional Defense System IIIc.

In some embodiments, a bacterial species does not comprise an endogenous Defense System IIIc. In some embodiments, a bacterial species does not express an endogenous Defense System IIIc. In some embodiments, a bacterial species does not express an endogenous functional Defense System IIIc.

In some embodiments, a Druantia Type I defense system (Defense System IIIa) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof. In some embodiments, a Druantia Type I defense system (Defense System IIIa) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, a DruB polypeptide wherein said DruB polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruA polypeptide and said DruE polypeptide, a DruC polypeptide wherein said DruC polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruA polypeptide and said DruE polypeptide, a DruD polypeptide wherein said DruD polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruA polypeptide and said DruE polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof.

In some embodiments, a Druantia Type I defense system (Defense System IIIa) having an anti-phage activity comprises a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof. In some embodiments, a Druantia Type I defense system (Defense System IIIa) having an anti-phage activity comprises a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, a DruB polypeptide wherein said DruB polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruA polypeptide and said DruE polypeptide, a DruC polypeptide wherein said DruC polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruA polypeptide and said DruE polypeptide, a DruD polypeptide wherein said DruD polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruA polypeptide and said DruE polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof.

In some embodiments, a Defense System IIIa comprises a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof.

In some embodiments, a Defense System IIIa comprises at least two polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA. In some embodiments, a Defense System IIIa comprises at least three polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 column Z and AA. In some embodiments, a Defense System IIIa comprises at least four polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA. In some embodiments, a Defense System IIIa comprises five polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA.

In some embodiments, a functional Defense System IIIa comprises at least two polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns r and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA. In some embodiments, a functional Defense System IIIa comprises at least three polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA. In some embodiments, a functional Defense System IIIa comprises at least four polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA. In some embodiments, a functional Defense System IIIa comprises five polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K; or a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; or a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; or a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA.

In some embodiments, a Druantia Type I defense system (Defense System IIIa) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a druA gene, a druB gene, a druC gene, a druD gene, and a druE gene.

In some embodiments, the Druantia Type I anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a gene cassette comprising druA, druB, druC, druD, and druE genes. In some embodiments, a Druantia Type I (Defense System IIIa) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 16; construct 56 of Table 4) 1 tagtaaggca ttatagtgaa acgatgtcta tgaatcacac atctaatgtc cggtgaacgt 61 ttggttgata gggtagtaaa actagtaatc atcctataat tagctatatt cgtggttatt 121 agattgaaaa cagataacat taacaaaatc tataaatcta tttgaatgat ttttttcatc 181 aatgctgttg taacctcctg ctatcaaaag tttttcacaa aatctataag ctcccagaat 241 tgcttgtata aatgctatca ttggcgctgt cccgatcgag ggagcaagga ggggactctc 301 ttgtgccatg cgattaatca cttgggctct aagtgaaatt tagtgggact aaatactaat 361 tggaacgtga gataaaaatg cacaaagatc cctctataat agttaatatc aaccttcgag 421 aagccaaact gaaaaagaag gtacgtgagc atttacaatc cttgggtttt acaagatctg 481 attctggagc gctccaggcc ccgggaaata ccaaagatgt aatacgggct cttcatagtt 541 ctcaacgagc tgagcggata tttgcaaacc aaaagttcat aacgctaaga gcggcaaagc 601 ttattaaatt tttcgcatcc ggcaatgagg tcattccgga taaaatttca ccggtacttg 661 aacgtgtaaa gtcaggaacc tggcaaggag atctctttag gttagcagca ttaacttggt 721 ccgtacctgt ttcaagcgga tttggaaggc gtctccggta tcttgtatgg gatgaaagca 781 acggaaaatt gatagggctg atcgcaattg gtgaccctgt gttcaacctt gcagtccgag 841 ataatttgat tgggtgggat actcatgcca gaagttcccg gcttgttaat ttgatggatg 901 catacgtcct cggtgctctt cccccttata atgccctgct gggaggaaaa ttaattgcat 961 gtctgcttcg tagccgcgat ctttatgatg actttgcaaa ggtctatggt gataccgttg 1021 gagtaatatc tcaaaaaaag aaacaagcac gtcttttggc tattacaaca acatcgtcta 1081 tggggcgctc atcggtatat aaccgtttaa agctggatgg aattcaatat ttaaaatcga 1141 ttggatatac aggcggttgg gggcattttc atatacctga tagcttgttc attgaattac 1201 gtgattactt acgtgatatg gatcacgctt atgcagatca ttatatgttt ggtaatgggc 1261 ctaactggcg tttacgtaca actaaggcag ctttaaatgt actaggattt agagataatt 1321 tgatgaagca tggaattcaa cgtgaagttt ttatcagtca gctagcagaa aatgcaacta 1381 gtattctgca aacaggcaaa ggtgaaccag atctaacctc tttgctttct gctaaagaga 1441 tagctgagtg tgcgatggca cgatggatgg ttccacgatc aattcgcaat ccagaatatc 1501 ggctttggaa agcaagagat ctatttgatt ttattagtaa tgactcgcta aaatttcccc 1561 cgtctgacga gatagcgaaa acagttgtct aatcttaact gaagggggag taagtgaatt 1621 acgctattga taagttcacc gggacactga tattagcagc tcgagcaacg aaatatgctc 1681 aatatgtttg cccagtttgt aaaaaaggtg ttaacctccg taaagggaag gttatacccc 1741 catattttgc tcatttgccc ggacatggta cgtcagactg tgaaaatttt gttcccggaa 1801 attccatcat tatcgaaact attaaaacta tttcaaagcg atatatggat ttgcgcttat 1861 tgattcctgt cggaagtaat agtcgagagt ggtcattaga attagtgttg ccaacctgta 1921 atttatgtag agcaaagata acgttagatg taggaggcag aagccaaacg cttgatatga 1981 ggagtatggt aaagagtcgc cagattggtg ctgaattatc agtaaaatct taccgtattg 2041 tttcatatag tggtgaaccc gatccaaaat ttgtaacaga agttgaaaga gaatgccccg 2101 gtttaccttc tgagggagca gcagttttca ctgctttagg gcgtggggca tcgaagggat 2161 ttccacgagc acaagagtta agatgtactg aaacatttgc ctttctttgg cgacaccctg 2221 ttgctccaga ttttcctgat gaattagaaa taaaaagttt agctagtaaa cagggatgga 2281 atttagctct tgttacaatt cctgaagtcc cttctgtgga gagtatttca tggctaaaat 2341 cttttacata ccttcctgtt gttcctgcca gaacatctat tacagcaatt tggccgttcc 2401 taaatcaaaa aacaagtatt aatcatgtcg aatgtgttca ttctgacaca atattgttgt 2461 cagcaaatat ggcaccaaca tcatcagaaa atgttggacc aactatgtac gcacaaggtt 2521 cctctttatt actttcagcg gttggtgttg aaaaatcacc tgctttcttc attcttaatc 2581 ctggagaaaa tgactttgtg ggcgtttctg gctcaattga gcaggacgta aacttatttt 2641 tttctttcta taaaaaaaac gtttctgtac ccagaaaata tccctcaata gatttggttt 2701 ttactaagag gaataaagaa aagaccatcg tttccttaca tcaaagaaga tgcattgaag 2761 ttatgatgga agcacgaatg tttggccata aattagaata catgtctatg ccttctggtg 2821 ttgaaggagt ggcaagaatt caaagacaaa ctgaaagtag tgttattaag ttagtttcta 2881 atgatgacat tgcagctcat gataagagca tgcggttact atctcctgtt gcgttatctc 2941 aattatctga ttgcttagca aacttaacat gtcatgtaga aatagatttt ttaggtcttg 3001 gtaaaatatt tttacctagt tcttctatgt tatcattaga tgacggggaa tttattgaat 3061 tatctcctaa tcttcgctca cggatattaa gttttatact tcaaatgggg cacaccctcc 3121 atggttttag tttaaataat gattttttat tagttgagaa attagtggat ttgcagccgg 3181 aaccacactt attaccgcat tatagggcat tggtaaaaga agttaagacc aatggatttg 3241 aatgtaaccg ctttagataa ggtgccttcg aatgagttac caatatagcc aagaggcaaa 3301 ggaacggatc tctaagttgg gacaatccga aattgttaac tttatcaatg agatttctcc 3361 aactttacga cgtaaagctt ttggttgttt accaaaagta ccgggattca gggcaggaca 3421 tcccactgaa attaaagaaa aacagaaaag attgattggg tatatgttcc agtcacatcc 3481 ttcctctgag gagagaaaag catggaaaag tttttctctt ttttggcagt tttgggctga 3541 agagaaaatt gacaaatcat ttagtatgat tgataattta ggattaaaag aaaactctgg 3601 ctctattttt attagagagc ttgctaaaaa ctttcctaaa gttgctagag agaatatcga 3661 gcgcctgttt atctttagtg ggtttgctga tgatccagac gttataaatg catttaacct 3721 ttttcctcct gcagttgttc ttgcccgcga tatcgtggtt gatactcttc caattcgttt 3781 agatgagctt gaagcacgta ttagtttaat tgccgataat gtggagaaaa aaaataacca 3841 tattaaagag cttgagttaa aaatagatgc tttttccgaa cggttcgata attactttaa 3901 taatgaaaag agcaatttaa aaataattaa cgaactacaa tccttaataa actcagagac 3961 taaacaatct gatattgcta ataaatctat tgacgagctt tatcatttta atgaaaaaaa 4021 caaacagcta atattatctc ttcaagagaa attagatttt aatgctctgg ctatgaatga 4081 catttctgag catgaaaaat tgataaaaag tatggctaat gaaatttcag agttaaaaaa 4141 tgcattaact atcttgtgtg ataataaaag aaagaataac gagttagatt atatcaatga 4201 attaaaaaaa ctcactgaac gaatagatac acttgaaata aacacatctc aagctagcaa 4261 agtgagtgtc accaatagat ttacaaaatt ccatgaaata gcgcactatg aaaattatga 4321 atatctttca tcctccgaag acatatctaa tagaatttct ttaaatttac aggctgttgg 4381 gttaacaaaa aattcagcag aaacattggc tagattgaca ttagctacct tcgtttctgg 4441 acaaatcatt caattcagtg gctctttggc agatattatc gcggatgcaa ttgccattgc 4501 tattggtgca ccacgttatc acatatggag agttccagtt ggtattattt ctgacatgga 4561 ttcttttgat tttatagaga ctatagctga atcatctcgc tgtctccttt tgaaaggggc 4621 caatctttca gcatttgaga tttatggagc ggcaattaga gatatagttg ttcaacggca 4681 aatacatcca acaaattatg accatctggc attgatagct acttggaaac aaggccctgc 4741 tacattccct gatggaggaa tgttggccga gttgggacca gttattgata ctgatacatt 4801 aaaaatgcgt ggtttatctg ctattttacc ccaattgaaa ccaggttgtc ttgccaagga 4861 taaatggaca aatattgatg gactacagct tgatagtgtt gatgattatg tagatgaatt 4921 aagagcatta ctggacgaag ctggatttga tgggggaact ttgtggaaga gaatggttca 4981 tattttctat acttcactca taagagtccc taatggaaat tatatttatg atctttattc 5041 tgtcttgtct ttttatactc ttacatgggc aaaaattaaa ggtggccccg tccaaaagat 5101 agaagatatt gccaatcgtg aattaaaaaa ttatagtgca aaaatatctt cttgaggagg 5161 tggttaatgg agtggagagc agtatcacga gacaaagcac tggatatgtt atcaactgca 5221 ttaaattgtc gatttgatga tgaagggttg agaatttcag cagtttcaga atgcttaagg 5281 agcgtattat atcaatattc tatatctgaa acagaagaag ctaggcaaac tgtaacctcg 5341 cttcgactca ctagtgcagt aaggcgaaaa ttggtacctt tatggccaga cattgctgat 5401 attgataatg ctatacatcc gggcattatg tctatattga acagcttggc tgaattgggt 5461 gacatgatta agttagaagg tggtaattgg ctcacagctc ccccacatgc agtacgaatt 5521 gacaataaga tggctgtttt ttttggtgga gagccttcct gtacattttc aacgggcgtg 5581 gtagctaaat ctgctggaag agttcgcttg gttgaagaaa aagtgtgtac tggaagtgtt 5641 gaaatctggg atgcaaatga gtggattggt gccccagcag aaggcaatga agaatggtca 5701 tccagactac tatctggaac tatttccggc tttatcgatg cgcctagcaa tatgagtgaa 5761 acgactgcat atgtgcgggg aaaatggctc catttgtcag aactttcttt taataaaaag 5821 caaatctact tatgcagaat gtccgttgat aatcactttt cctattattt aggagaaatt 5881 gaagctggac gcttatgtag aatgaattcg ttagaatcgt ctgatgatgt cagaagatta 5941 cgtttttttc tcgatacaaa agataattgt ccgctaaaga tccgtatcaa aatatctaat 6001 gggctagcaa gattaagatt aaccagaaga ttaccaagac gagaaacgaa ggtactcctg 6061 ctaggctgga gagaatcagg ttttgaaaat gaacattcag gaataacaca ccatgtattc 6121 cccgaggaaa tattacccat agtgcgtagc gcttttgaag ggcttggtat tatttggatt 6181 aacgaattca cgcgacggaa tgaaatatga ttaataaaaa taaagtaact gaacgttcag 6241 gtatacatga taccgtgaaa agccttagtg agaatctgag aaaatacatt gaggcacaat 6301 atcatatccg ggatgaaggg ttaattgctg agcgacgagc gcttttacag caaaatgaaa 6361 ctattgctca agctccttat atagaagcaa ccccaattta tgaacctggt gcgccataca 6421 gtgaattacc tattcccgaa gcagcaagta atgtgctaac tcaactatca gaacttggaa 6481 ttggcctcta tcaacgcccc tataaacacc aatcacaggc acttgagtca tttcttggcg 6541 aagacgcttc tgatctggtc attgcaacag gtacaggctc cggtaagact gaaagctttc 6601 taatgccaat tattggtaaa ttggcgattg aatcttccga gagacctaaa tctgcatccc 6661 ttccaggttg tagagcaatt ttattatatc caatgaatgc attagttaac gatcaacttg 6721 ctcgtatcag acgtcttttt ggtgattctg aagcctctaa aatactgaga tctggaagat 6781 gtgcccctgt acgctttggc gcttatacgg gaagaacgcc ttaccctggt cgtcgtagct 6841 ctagacgaga cgagcttttt atcaaacccc ttttcgatga gttttacaat aaactcgcaa 6901 ataacgcccc tgtacgtgcg gaactgaacc gcattggtcg ctggccaagt aaagatcttg 6961 atgcttttta tgggcaaagc gcatctcagg ctaaaaccta cgtctcaggc aaaaaaacgg 7021 gtaagcaatt tgttttgaac aattgggggg agaggctaat tacccagcct gaggatcgtg 7081 agctaatgac ccggcatgaa atgcagaatc gctgtccaga attactgata acgaactact 7141 ccatgcttga gtatatgctg atgcgaccta tcgagcgtaa tatttttgag cagactaagg 7201 aatggctcaa agctgatgag atgaatgagc ttatcttagt gcttgatgaa gcgcatatgt 7261 atagaggagc agggggagca gaggtagccc ttttaatacg tcgcctctgt gctcggttgg 7321 atattccccg ggaacgtatg cgctgcatcc ttaccagtgc tagtctaggg tccattgagg 7381 atggagaacg ttttgcccaa gacttaactg gcttatcacc aacctcttcg aggaaatttc 7441 gaattattga gggtacaagg gaatcgcgtc ctgagtcaca aattgttacc agtaaagaag 7501 ctaatgcact ggctgaattc gacctaaatt catttcagtg cgtagctgag gatcttgaat 7561 ctgcatatgc agcaatagag tctcttgccg aacgaatggg ctggcaaaag ccgatgataa 7621 aagatcatag tacactacgt aattggttat ttgataattt gactggtttt ggtcctattg 7681 aaacgcttat tgaaatagtt tcaggtaaag cggttaagct aaatatcttg agtgaaaacc 7741 tttttccaga ctctccacag caaattgcag agcgagcgac agatgcatta ctcgcattgg 7801 gttgctatgc tcagagggca tccgatggca gagtgcttat tccaactcgc atgcatcttt 7861 tttatcgggg attaccaggt ctttatgcct gtatagatcc cgattgtaat caacgtttgg 7921 gtaaccatag tgggccaact atacttggcc gcctttatac gaaaccactg gatcaatgta 7981 aatgcgcttc aaaagggcga gtctacgaat tatttaccca ccgtgactgc ggtgcggctt 8041 ttattcgtgg atacgttagt tccgaaatgg actttgtatg gcaccagccg aacggaccat 8101 tatcagaaga tgaggatatc gatcttgttc ccatagatat attggtcgag gaaacacctc 8161 atgtacatag tgattaccag gacagatggc tacatatagc aacaggacgc ctttctaaac 8221 agtgtcaaga tgaggattct ggttatcgta aagtctttat acctgaccga gttaagtctg 8281 gatctgaaat tacatttgat gaatgccctg tttgtatgcg taagacaaga agtgctcaga 8341 atgaaccgtc taaaattatg gatcatgtta caaaagggga agcacctttt acaacgttag 8401 tacgtacaca gatatctcac cagccagcga gtcgtcctat tgatggtaaa catcccaatg 8461 ggggaaaaaa agtacttatt ttttctgatg gccgacaaaa agcagctcgg cttgcacgtg 8521 atattcctag agatattgag cttgatttgt ttcggcaatc cattgctctc gcctgttcta 8581 aactgaaaga tatcaatcgg gaacccaaac caacatcagt actttacctt gctttcctat 8641 cagtcctttc tgaacatgac ttgcttattt ttgatgggga agattcacga aaagttgtaa 8701 tggcccgtga tgaattttat cgtgattata atagcgatct ggctcaagct tttgatgata 8761 acttcagtcc ccaagagtca ccgtcacgat ataaaatagc gttgcttaaa cttttatgta 8821 gcaattacta ttctctttcc ggaacaacag ttggttttgt tgaaccatcg cagcttaaat 8881 caaaaaaaat gtgggaagat gtgcagtcca agaagctaaa tattgagagc aaggatgttc 8941 atgctttagc tgttgcttgg attgatacct tactcactga atttgctttt gatgaatcta 9001 ttgattcgac actacgaatc aaagccgctg gattctacaa acccacttgg ggtagtcaag 9061 gacggtttgg aaaagctctt aggaaaaccc tgatacagca tcctgctatg ggggagcttt 9121 atgtggaagt tttggaggag atttttcgta ctcatctgac attaggaaaa gatggtgtct 9181 actttcttgc tccaaatgca ctacgtctga aaatagatct cttgcatgtc tggaaacaat 9241 gtaatgactg cacggcacta atgccatttg ctttagaaca ttctacttgc cttgcttgtg 9301 gtagtaacag tgtcaaaaca gtcgagccgt cggaaagcag ctatattaat gcacgaaaag 9361 gattctggcg ttcgccggta gaagaagttt tggtttcaaa ttcgcggctt ctaaacctta 9421 gcgttgaaga gcatactgct caactctcac atagagatag ggccagcgtt catgccacta 9481 cagaactcta cgaactgaga ttccaagatg ttcttattaa tgataacgac aagcccattg 9541 atgtacttag ttgtacgacg acgatggaag tgggggttga tattggatct ctggttgctg 9601 ttgctttaag aaacgtccct ccgcaacgag aaaattatca gcaacgtgct gggcgagcag 9661 gccgccgtgg cgcatctgtt tcaacggtgg ttacatattc tcaaaatggc cctcatgata 9721 gttattattt ccttaatcct gaacgcattg ttgcaggttc tcctcgtaca cctgaagtga 9781 aagtaaataa tcccaaaata gccagaagac acgttcattc ttttttagtt cagacctttt 9841 ttcacgagtt aatggaacaa ggaatttata atcccacaga gaaaactgcc atacttgaga 9901 aagcacttgg tactacacga gatttttttc atggagcaaa agatactggc ctaaatctcg 9961 atagctttaa taattgggtt aaaaaccgta ttctatctac taatggtgat ttgagaacaa 10021 gtgttgcagc atggcttcct cctgttcttg aaactggagg gctttctgcc agtgactggt 10081 ttgctaaggt agcagaggaa tttttaaata cactccatgg gctggctgaa attgttccac 10141 aaattgccgc tcttgttgat gaggaaaatg aagatgatga gcagacttct ggtggaatga 10201 aatttgcaca agaagaatta cttgagttcc tgttttacca tggtttatta ccaagttatg 10261 catttcctac aagcctctgt agtttcttgg tagaaaaaat tgtaaagaat attagaggtt 10321 cttttgaggt gcgaacagta caacagcctc agcaatcaat ttctcaggct ctgagtgaat 10381 atgccccggg acgtttgatt gttattgata ggaaaaccta tcgctctggt ggtgtttttt 10441 ctaatgcatt gaaaggcgaa ctaaaccggg caagaaagct tttcaataat cccaaaaagt 10501 ttattcattg cgataagtgc tcttttgtcc gcgatcctca taataatcag aatagcgaaa 10561 atacttgtcc gatctgtggt ggcattctaa aagtagaaat aatgattcag cccgaagtct 10621 ttggacctga aaatgccaag gaacttaatg aggacgacag agagcaagaa atcacctatg 10681 taactgcggc acaatatcca caacctgttg atcctgaaga ttttaagttc aataatggag 10741 gtgctcatat tgtttttact cacgcaatag atcagaaact ggtgacggtg aaccgaggga 10801 aaaatgaggg ggggtccagt ggtttttcag tatgttgcga atgtggtgcg gcctccgttt 10861 atgattccta ctcaccggca aagggggcac atgaaagacc gtataaatat atagcaacta 10921 aggaaacgcc tcgcttatgc tctggcgagt ataaacgcgt ttttctcgga catgatttcc 10981 gtactgattt gcttttatta cgaataaccg ttgggtctcc gcttgtaact gatacttcaa 11041 atgctatcgt tttacggatg tatgaagatg cattatatac aatagcggaa gcactaaggc 11101 ttgcagctag tcgccataaa caactggatc ttgatcctgc tgagtttggc tctggtttca 11161 gaattttacc cactatagag gaagatactc aggcattgga tctcttcctt tatgatactt 11221 tatctggcgg tgcgggttat gcggaagtag cagcagcgaa tctagatgac attcttactg 11281 caacactcgc attgttagaa ggttgtgagt gcgatacctc ctgtacagat tgtctcaatc 11341 atttccacaa ccagcatata caaagccgtc tcgataggaa actaggtgca tctttacttc 11401 gttatgctct atacggaatg gttcctcgtt gtgcttcacc tgatattcag gtagaaaaat 11461 tgtctcaatt gagggcaagt ctggaattgg atggttttca atgcctaatt aagggaactc 11521 aggaggcacc tatgattgtg agtttgaatg accgttctgt tgcagtggga agttaccctg 11581 gtcttattga tcgacccgac tttcaacacg acgtatataa gtcaaagaat actaatgctc 11641 atatagcctt taatgaatat cttcttcgtt caaatctgcc acaagcgcat caaaatatta 11701 gaaaattgtt gcgctgatag cagtattgag tgccctaaag tcctataggg cactcaaggt 11761 tattctcttt taatatttgt taatagcatg tattttaagg ctttcagtcc ttgagctggc 11821 ttttacacaa cgagaaagag gtaattataa taccagccgg atatggcgag aaatggtggc 11881 ccgggggtgt aagtatcccg cataatcgtg ccattcatat ttagagatca tccggcataa 11941 tcaatctgct aacgaaggag atcgcta.

The coding regions for each of the druA, drub, druC, drub, and druE gene sequences within this embodiment of a Druantia Type I cassette (SEQ ID NO: 16) are as follows: nucleotides 378-1592 encode an embodiment of a DruA polypeptide; nucleotides 16614-3260 encode an embodiment of a DruB polypeptide; nucleotides 3272-5155 encode an embodiment of a DruC polypeptide, nucleotides 5167-6210 encode an embodiment of a DruD polypeptide; and nucleotides 6207-11717 encode an embodiment of a DruE polypeptide.

In some embodiments, a Defense System IIIa comprising a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide and a DruE polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 16. In some embodiments, a Defense System IIIa comprising a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide and a DruE polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 16. In some embodiments, a Defense System IIIa comprising a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide and a DruE polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 16. In some embodiments, a Defense System IIIa comprising a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide and a DruE polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 16. In some embodiments, a Defense System IIIa comprising a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide and a DruE polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 16.

In some embodiments, the Type I Druantia anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a gene cassette comprising druB, druC, druD, and druE genes. In some embodiments, the Type I Druantia anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a gene cassette comprising druB, druC, druD, druE, and druA genes.

In some embodiments, a construct comprising the Type I Druantia anti-phage defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Druantia defense system comprise polypeptides DruA, DruB, DruC, DruD, and DruE. In some embodiments, the components of a Druantia Type I defense system comprise polypeptides DruB, DruC, DruD, and DruE.

In some embodiments, a construct comprising the Druantia Type I anti-phage defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Druantia defense system comprise genes druA, druB, druC, druD, and druE. In some embodiments, the components of a Druantia Type I defense system comprise genes druB, druC, druD, and druE.

In some embodiments, the components of a Druantia Type I defense system consists of genes druA, druB, druC, druD, and druE. In some embodiments, the components of a Druantia Type I defense system consist of genes druB, druC, druD, and druE.

In some embodiments, the components of a Druantia Type I defense system comprise nucleic acid sequences encoding a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide. In some embodiments, the components of a Druantia Type I defense system comprise nucleic acid sequences encoding a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide. In some embodiments, the components of a Druantia Type I defense system comprise nucleic acid sequences encoding a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, a DruE polypeptide, and a DruA polypeptide.

In some embodiments, the components of a Druantia Type I defense system consist of nucleic acid sequences encoding a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide. In some embodiments, the components of a Druantia Type I defense system consist of nucleic acid sequences encoding a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide. In some embodiments, the components of a Druantia Type I defense system consist of nucleic acid sequences encoding a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, a DruE polypeptide, and a DruA polypeptide.

In some embodiments, a construct comprising the Druantia Type I defense system encodes one component of the defense system, whereby a second, third, fourth, or fifth construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Druantia defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of DruA, DruB, DruC, DruD, and DruE may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Druantia defense system. In some embodiments each of DruB, DruC, DruD, and DruE may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Druantia defense system.

In some embodiments, the components making up a functional Druantia Type I anti-phage defense system comprise a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide, each encoded by a druA, druB, druC, druD, or druE gene, respectively. In some embodiments, the components making up a functional Druantia Type I anti-phage defense system comprise a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide, each encoded by a druB, druC, druD, or druE gene, respectively.

In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid encoding a DruA polypeptide. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid encoding a DruB polypeptide. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid encoding a DruC polypeptide. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid encoding a DruD polypeptide. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid encoding a DruE polypeptide.

In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid encoding a DruB polypeptide and a DruE polypeptide. In some embodiments, a Druantia defense system having an anti-phage activity comprises a nucleic acid encoding a DruC polypeptide and a DruE polypeptide. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid encoding a DruB polypeptide, a DruC polypeptide, and a DruE polypeptide.

In some embodiments, a Druantia Type I defense system having an anti-phage activity comprise a nucleic acid comprising a druA gene. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprise a nucleic acid comprising a druB gene. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprise a nucleic acid comprising a druC gene. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprise a nucleic acid comprising a druD gene. In some embodiments, a Druantia Type I defense system having an anti-phage activity comprise a nucleic acid comprising a druE gene.

In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is DruA, DruB, DruC, DruD, and DruE. In one embodiment, the 5′ to 3′ order of polypeptides encoded is DruB, DruC, DruD, and DruE. In one embodiment, the 5′ to 3′ order of polypeptides encoded is DruB, DruC, DruD, DruE, and DruA.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of DruA, DruB, DruC, DruD, and DruE. In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of DruB, DruC, DruD, and DruE.

In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is druA, druB, druC, druD, and druE. In some embodiment, the 5′ to 3′ order of genes is druB, druC, druD, and druE. In some embodiment, the 5′ to 3′ order of genes is druB, druC, druD, druE, and druA.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of druA, druB, druC, druD, and druE. In some embodiments, the 5′ to 3′ order of genes is random, for example any order of druB, druC, druD, and druE.

In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, a Druantia Type II defense system (Defense System IIIb) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruM polypeptide comprising a COG0270 domain or a pfam00145 domain or a combination thereof, a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof. In some embodiments, a Druantia Type II defense system (Defense System IIIb) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruM polypeptide comprising a COG0270 domain or a pfam00145 domain or a combination thereof, a DruF polypeptide wherein said DruF polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruM polypeptide and said DruE polypeptide, a DruG polypeptide wherein said DruG polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruM polypeptide and said DruE polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof.

In some embodiments, a Druantia Type II defense system (Defense System IIIb) having an anti-phage activity comprises a DruM polypeptide comprising a COG0270 domain or a pfam00145 domain or a combination thereof, a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof. In some embodiments, a Druantia Type II defense system (Defense System IIIb) having an anti-phage activity comprises a DruM polypeptide comprising a COG0270 domain or a pfam00145 domain or a combination thereof, a DruF polypeptide wherein said DruF polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruM polypeptide and said DruE polypeptide, a DruG polypeptide wherein said DruG polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruM polypeptide and said DruE polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof.

In some embodiments, a Defense System IIIb comprises a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; or a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; or a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof.

In some embodiments a Defense System IIIb comprises at least two different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; or a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; or a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof. In some embodiments a Defense System IIIb comprises at least three different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; or a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; or a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof. In some embodiments a Defense System IIIb comprises four different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; or a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; or a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof.

In some embodiments, a functional Defense System IIIb comprises at least two different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; or a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; or a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof. In some embodiments, a functional Defense System IIIb comprises at least three different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; or a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; or a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof. In some embodiments, a functional Defense System IIIb comprises four different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; or a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; or a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or any combination thereof.

In some embodiments, a Druantia Type II defense system (Defense System IIIb) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a druM gene, a druF gene, a druG gene, and a druE gene.

In some embodiments, the Druantia Type II anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a gene cassette comprising druM, druF, druG, and druE genes. In some embodiments, the Type II Druantia anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a gene cassette comprising druM, druF, druG, and druE genes.

In some embodiments, a construct comprising the Type II Druantia anti-phage defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Druantia defense system comprise polypeptides DruM, DruF, DruG, and DruE.

In some embodiments, a construct comprising the Druantia Type II anti-phage defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Druantia defense system comprise genes druM, druF, druG, and druE.

In some embodiments, the components of a Druantia Type II defense system consists of genes druM, druF, druG, and druE.

In some embodiments, the components of a Druantia Type II defense system comprise nucleic acid sequences encoding a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide.

In some embodiments, the components of a Druantia Type II defense system consist of nucleic acid sequences encoding a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide.

In some embodiments, a construct comprising the Druantia Type II defense system encodes one component of the defense system, whereby a second, third, or fourth, construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Druantia defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of DruM, DruF, DruG, and DruE may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Druantia Type II defense system.

In some embodiments, the components making up a functional Druantia Type II anti-phage defense system comprise a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide, each encoded by a druM, druF, druG, or druE gene, respectively.

In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruM polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruF polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruG polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruE polypeptide.

In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruM polypeptide and a DruE polypeptide. In some embodiments, a Druantia defense system having an anti-phage activity comprises a nucleic acid encoding a DruF polypeptide and a DruE polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruG polypeptide and a DruE polypeptide. In some embodiments, a Druantia defense system having an anti-phage activity comprises a nucleic acid encoding a DruM polypeptide, a DruF polypeptide, and a DruE polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruM polypeptide, a DruG polypeptide, and a DruE polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruM polypeptide, a DruF polypeptide, and a DruG polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid encoding a DruF polypeptide and a DruG polypeptide.

In some embodiments, a Druantia Type II defense system having an anti-phage activity comprise a nucleic acid comprising a druM gene. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprise a nucleic acid comprising a druF gene. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprise a nucleic acid comprising a druG gene. In some embodiments, a Druantia Type II defense system having an anti-phage activity comprise a nucleic acid comprising a druE gene.

In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is DruM, DruF, DruG, and DruE.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of DruM, DruF, DruG, and DruE.

In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. Non-limiting examples of the 5′ to 3′ order or genes comprises druM, druF, druG, and druE; druF, druG, druE, and drum; druG, druE, druM, and druF; and druE, druM, druG, and druF.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of druM, druF, druG, and druE.

In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, a Druantia Type III defense system (Defense System IIIc) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruH polypeptide and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof. In some embodiments, a Druantia Type III defense system (Defense System IIIc) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruH polypeptide and said DruE polypeptide, wherein said DruH polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruE polypeptide.

In some embodiments, a Druantia Type III defense system (Defense System IIIc) having an anti-phage activity comprises a DruH polypeptide and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof. In some embodiments, a Druantia Type III defense system (Defense System IIIc) having an anti-phage activity comprises a DruH polypeptide and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, wherein said DruH polypeptide is encoded by a gene positioned within 5 genes of a gene encoding said DruE polypeptide.

In some embodiments, a Defense System IIIc comprises a DruH polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 296-1343 columns AP and AQ; or a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z nd AA or a combination thereof; or any combination thereof.

In some embodiments, a Druantia Type IIII defense system (Defense System IIIc) having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a druH gene and a druE gene.

In some embodiments, the Druantia Type IIII anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a gene cassette comprising druH and druE genes.

In some embodiments, a construct comprising the Type III Druantia anti-phage defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Druantia defense system comprise polypeptides DruH and DruE.

In some embodiments, a construct comprising the Druantia Type III anti-phage defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Druantia defense system comprise genes druH and druE.

In some embodiments, the components of a Druantia Type III defense system consists of genes druH and druE.

In some embodiments, the components of a Druantia Type III defense system comprise nucleic acid sequences encoding a DruH polypeptide and a DruE polypeptide.

In some embodiments, the components of a Druantia Type III defense system consist of nucleic acid sequences encoding a DruH polypeptide and a DruE polypeptide.

In some embodiments, a construct comprising the Druantia Type III defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Druantia Type III defense system encodes one component of the defense system, whereby an additional construct may be used to assemble the functional defense system. For example, in some embodiments each of DruH and DruE may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Druantia defense system.

In some embodiments, the components making up a functional Druantia Type III anti-phage defense system (Defense System IIIc) comprise a DruH polypeptide and a DruE polypeptide, each encoded by a druH and druE gene, respectively. In some embodiments, a Defense System IIIc comprises at least two different polypeptide components selected from DruH and DruE, as described herein. In some embodiments, a functional Defense System IIIc comprises at least two different polypeptide components selected from DruH and DruE, as described herein. In some embodiments, a functional Defense System IIIc having anti-phage activity comprises at least two different polypeptide components selected from DruH and DruE, as described herein.

In some embodiments, a Druantia Type III defense system having an anti-phage activity comprises a nucleic acid encoding a DruH polypeptide. In some embodiments, a Druantia Type III defense system having an anti-phage activity comprises a nucleic acid encoding a DruE polypeptide.

In some embodiments, a Druantia Type III defense system having an anti-phage activity comprises a nucleic acid encoding a DruH polypeptide and a DruE polypeptide.

In some embodiments, a Druantia Type III defense system having an anti-phage activity comprise a nucleic acid comprising a druH gene. In some embodiments, a Druantia Type III defense system having an anti-phage activity comprise a nucleic acid comprising a druE gene.

In some embodiments, a Druantia Type III defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is DruH and DruE. In one embodiment, the 5′ to 3′ order of polypeptides encoded is DruE and DruH.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of DruH and DruE.

In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, a Druantia Type III defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is druH and druE.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of druH and druE.

In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the Druantia system (Defense Systems IIIa, IIIb, and IIIc) composition and order is as shown in FIG. 3C, FIG. 6A, or FIG. 6B.

In some embodiments, a Druantia defense system having an anti-phage activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 10). A skilled artisan would appreciate that the Druantia system is not present in the majority of bacteria and or archaea species.

In some embodiments, a functional Druantia defense system (Defense System IIIa, Defense System IIIb, and/or Defense System IIIc) comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. In some embodiments, a functional Druantia defense system (Defense System IIIa, Defense System IIIb, and/or Defense System IIIc) comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Druantia defense system (Defense System IIIa, Defense System IIIb, and/or Defense System IIIc) comprises a combination of at least two polypeptides that do not naturally occur together. In some embodiments, a functional Druantia defense system (Defense System IIIa, Defense System IIIb, and/or Defense System IIIc) comprises a combination of at least three polypeptides that do not naturally occur together. In some embodiments, a functional Druantia defense system (Defense System IIIa, Defense System IIIb, and/or Defense System IIIc) comprises a combination of at least four polypeptides that do not naturally occur together. In some embodiments, a functional Druantia defense system (Defense System IIIa, Defense System IIIb, and/or Defense System IIIc) comprises a combination of at least five polypeptides that do not naturally occur together.

For example, the source of the nucleic acid sequence encoding a DruA polypeptide may be one microbial species, the source of the nucleic acid sequence encoding a DruB polypeptide may be a different microbial species, the source of the nucleic acid sequence encoding a DruC polypeptide may be a different microbial species, the source of the nucleic acid sequence encoding a DruD polypeptide may be a different microbial species, and the source of the nucleic acid sequence encoding a DruE polypeptide may be yet a different microbial species. In some embodiments, the source of the nucleic acid sequence encoding some of the components of the Druantia system Type I (Defense System IIIa; DruA, DruB, DruC, DruD, and DruE) are the same, while the source of others is different. In some embodiments, the source of the nucleic acid sequence encoding the components of the Druantia Type I system (DruA, DruB, DruC, DruD, and DruE) is the same.

In other embodiments, the source of the nucleic acid sequence encoding a DruM polypeptide may be one microbial species, the source of the nucleic acid sequence encoding a DruF polypeptide may be a different microbial species, the source of the nucleic acid sequence encoding a DruG polypeptide may be a different microbial species, and the source of the nucleic acid sequence encoding a DruE polypeptide may be a different microbial species. In some embodiments, the source of the nucleic acid sequence encoding some of the components of the Druantia Type II system (Defense System IIIb; DruM, DruF, DruG, and DruE) are the same, while the source of others is different. In some embodiments, the source of the nucleic acid sequence encoding the components of the Druantia Type II system (DruM, DruF, DruG, and DruE) is the same.

In other embodiments, the source of the nucleic acid sequence encoding a DruH polypeptide may be one microbial species, and the source of the nucleic acid sequence encoding a DruE polypeptide may be a different microbial species. In some embodiments, the source of the nucleic acid sequence encoding the components of the Druantia Type III system (Defense System IIIc; DruH and DruE) is the same.

In some embodiments, a functional Druantia Type I defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a DruA polypeptide may be one bacterial species, the source of the nucleic acid sequence encoding a DruB polypeptide may be a different bacterial species, the source of the nucleic acid sequence encoding a DruC polypeptide may be a different bacterial species, the source of the nucleic acid sequence encoding a DruD polypeptide may be a different bacterial species, and the source of the nucleic acid sequence encoding a DruE polypeptide may be yet a different bacterial species. In some embodiments, the source of the nucleic acid sequence encoding some of the components of the Druantia Type I system (DruA, DruB, DruC, DruD, and DruE) are the same, while the source of others is different. In some embodiments, the source of the nucleic acid sequence encoding the components of the Druantia Type I system (DruA, DruB, DruC, DruD, and DruE) is the same.

In other embodiments, the source of the nucleic acid sequence encoding a DruM polypeptide may be one bacterial species, the source of the nucleic acid sequence encoding a DruF polypeptide may be a different bacterial species, the source of the nucleic acid sequence encoding a DruG polypeptide may be a different bacterial species, and the source of the nucleic acid sequence encoding a DruE polypeptide may be a different bacterial species. In some embodiments, the source of the nucleic acid sequence encoding some of the components of a functional Druantia Type II system (DruM, DruF, DruG, and DruE) are the same, while the source of others is different. In some embodiments, the source of the nucleic acid sequence encoding the components of a functional Druantia Type II system (DruM, DruF, DruG, and DruE) is the same.

In other embodiments, in a functional Type III Druantia system, the source of the nucleic acid sequence encoding a DruH polypeptide may be one bacterial species, and the source of the nucleic acid sequence encoding a DruE polypeptide may be a different bacterial species. In some embodiments, the source of the nucleic acid sequence encoding the components of a functional Druantia Type III system (DruH and DruE) is the same.

In some embodiments, the source of the nucleic acid sequence of any of the components of a Druantia defense system (Defense Systems IIIa [Druantia defense system I], IIIb [Druantia defense system II], and IIIc [Druantia defense system III]) comprises any of the species listed in Table 10.

In some embodiments, a Druantia Type I defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Druantia Type II defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Druantia Type III defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Druantia Type I system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. Yet, the majority of bacterial species do not express a Druantia Type I defense system.

In some embodiments, a Druantia Type II system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. Yet, the majority of bacterial species do not express a Druantia Type II defense system.

In some embodiments, a Druantia Type III system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. Yet, the majority of bacterial species do not express a Druantia Type III defense system.

According to some embodiments, the Druantia systems' (Type I) components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Druantia system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Druantia Type I defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Druantia Type I defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 10.

According to some embodiments a prokaryotic cell expresses a non-endogenous Druantia Type I defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Druantia Type I defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Druantia Type I defense system is selected from the group consisting of the species listed in Table 10.

According to some embodiments, the Druantia systems' (Type II) components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Druantia system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Druantia Type II defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Druantia Type II defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 10.

According to some embodiments a prokaryotic cell expresses a non-endogenous Druantia Type II defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Druantia Type II defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Druantia Type II defense system is selected from the group consisting of the species listed in Table 10.

According to some embodiments, the Druantia systems' (Type III) components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Druantia system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Druantia Type IIII defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Druantia Type IIII defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 10.

According to some embodiments a prokaryotic cell expresses a non-endogenous Druantia Type III defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Druantia Type III defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Druantia Type III defense system is selected from the group consisting of the species listed in Table 10.

In some embodiments, Druantia Type I defense system components comprise DruA, DruB, DruC, DruD, and DruE polypeptides. In some embodiments, a Druantia Type I defense system's components comprise functional portions of DruA, DruB, DruC, DruD, and DruE polypeptides.

In some embodiments, Druantia Type II defense system's components comprise DruM, DruF, DruG, and DruE polypeptides. In some embodiments, a Druantia Type II defense system's components comprise functional portions of DruM, DruF, DruG, and DruE polypeptides.

In some embodiments, Druantia Type III defense system components comprise DruH and DruE polypeptides. In some embodiments, a Druantia Type III defense system components comprise functional portions of DruH and DruE polypeptides.

In some embodiments, the Druantia Type I defense system components are encoded by druA, druB, druC, druD, and druE genes. In some embodiments, the Druantia Type I defense system components are encoded by a portion of druA, druB, druC, druD, and druE genes, where the portions of the gene encode functional portions of the respective polypeptides.

In some embodiments, the Druantia Type II defense system components are encoded by druM, druF, druG, and druE genes. In some embodiments, the Druantia Type II defense system components are encoded by a portion of druM, druF, druG, and druE genes, where the portions of the gene encode functional portions of the respective polypeptides.

In some embodiments, the Druantia Type III defense system components are encoded by druH and druE genes. In some embodiments, the Druantia Type III defense system components are encoded by a portion of druH and druE genes, where the portions of the gene encode functional portions of the respective polypeptides.

Non-limiting embodiments of endogenous Druantia systems (Defense Systems IIIa, IIIb, and IIIc) and the respective location of their components are provided in Table 10 herein.

In some embodiments, the components of a Druantia system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, the term “DruA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druA gene. In some embodiments, the term “DruA” refers to a DruA polypeptide. In some embodiments, the druA gene encodes a polypeptide comprising a pfam14236 domain. In some embodiments, the druA gene encodes a polypeptide comprising a DUF4338 domain. In some embodiments, the druA gene encodes a polypeptide comprising a pfam14236 domain and a DUF4338 domain. In some embodiments, the DruA polypeptide comprises a pfam14236 domain. In some embodiments, the DruA polypeptide comprises a DUF4338 domain. In some embodiments, the DruA polypeptide comprises a pfam14236 domain and a DUF4338 domain.

In some embodiments, DruA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruB, DruC, DruD, or DruE polypeptide, or any combination thereof, in a genome of a prokaryotic cell. In some embodiments, DruA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruB, DruC, DruD, or DruE polypeptide, or any combination thereof, in a genome of a prokaryotic cell. In some embodiments, DruA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a DruB, DruC, DruD, or DruE, or any combination thereof, polypeptide in a genome of a prokaryotic cell.

In some embodiments, DruA and DruB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruA and DruB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruA, DruB, and DruC are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruA, DruB, and DruC are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruA, DruB, DruC, and DruD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruA, DruB, DruC, and DruD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruA, DruB, DruC, DruD, and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruA, DruB, DruC, DruD, and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druA and druB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druA and druB genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druA, druB, and druC genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druA, druB, and druC genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druA, druB, druC, and druD genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druA, druB, druC, and druD genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druA, druB, druC, druD, and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druA, druB, druC, druD, and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruA polypeptide is about 404 amino acids long (median gene size).

In some embodiments, the DruA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K. In some embodiments, the DruA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K. In some embodiments, the DruA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 2-123, columns J and K.

In some embodiments, the DruA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K. In some embodiments, the DruA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K.

In some embodiments, the DruA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K. In some embodiments, the DruA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K. In some embodiments, the DruA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K. In some embodiments, the DruA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K. In some embodiments, the DruA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns J and K.

In some embodiments, the DruA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the DruA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the DruA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the DruA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the DruA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L.

In some embodiments, the nucleic acid sequence of a druA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the druA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the nucleic acid sequence of a druA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the druA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L. In some embodiments, the nucleic acid sequence of a druA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns J and L.

As used herein, the term “DruB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the druB gene. In some embodiments, the term “DruB” refers to a DruB polypeptide.

In some embodiments, DruB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruC, a DruD, or a DruE polypeptide, or any combination thereof in a genome of a prokaryotic cell. In some embodiments, a DruB-DruC fusion polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruD or a DruE polypeptide or a combination thereof. In some embodiments, DruB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruC, a DruD, or a DruE polypeptide or any combination thereof in a genome of a prokaryotic cell. In some embodiments, DruB-DruC fusion polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruD or a DruE polypeptide or a combination thereof in a genome of a prokaryotic cell. In some embodiments, DruB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a DruC, a DruD, or a DruE polypeptide or a combination thereof in a genome of a prokaryotic cell.

In some embodiments, DruB and DruC are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments DruB and DruC are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruB, DruC, and DruD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments DruB, DruC, and DruD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruB, DruC, DruD, and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments DruB, DruC, DruD, and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruB, DruC, and DruD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments DruB, DruC, and DruD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruB, DruC, DruD, DruE, and DruA are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments DruB, DruC, DruD, DruE, and DruA are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druB and druC genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druB and druC genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druB, druC, and druD genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druB, druC, and druD genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druB, druC, druD, and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druB, druC, druD, and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druB, druC, druD, druE, and druA genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druB, druC, druD, druE, and druA genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruB polypeptide is about 531 amino acids long (median gene size).

In some embodiments, the DruB polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O. In some embodiments, the DruB polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O. In some embodiments, the DruB polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 2-123, columns N and O.

In some embodiments, the DruB polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O. In some embodiments, the DruB polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O.

In some embodiments, the DruB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O. In some embodiments, the DruB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O. In some embodiments, the DruB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O. In some embodiments, the DruB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O. In some embodiments, the DruB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns N and O.

In some embodiments, the DruB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P. In some embodiments, the DruB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P. In some embodiments, the DruB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P. In some embodiments, the DruB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P. In some embodiments, the DruB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P.

In some embodiments, the nucleic acid sequence of a druB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P. In some embodiments, the druB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P. In some embodiments, the nucleic acid sequence of a druB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P. In some embodiments, the druB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, column L. In some embodiments, the nucleic acid sequence of a druB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns N and P.

In some embodiments, the term “DruC” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druC gene. In some embodiments, the term “DruC” refers to a DruC polypeptide.

In some embodiments, DruC polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruD or DruE polypeptide, or any combination thereof, in a genome of a prokaryotic cell. In some embodiments, DruC polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruD or DruE polypeptide, or any combination thereof, in a genome of a prokaryotic cell. In some embodiments, a DruC polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a DruD or DruE polypeptide in a genome of a prokaryotic cell.

In some embodiments, DruC and DruD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruC and DruD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruC, DruD, and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruC, DruD, and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruC, DruD, DruE, and DruA are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruC, DruD, DruE, and DruA are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, DruC and DruE polypeptides are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruC and DruE polypeptides are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druC and druD genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC and druD genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC, druD, and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC, druD, and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC, druD, druE, and druA genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC, druD, druE, and druA genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druC and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC, druE, and druA genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC, druE, and druA genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC and druA genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druC and druA genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruC polypeptide is about 627 amino acids long (median gene size).

In some embodiments, the DruC polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S. In some embodiments, the DruC polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S. In some embodiments, the DruC polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 2-123, columns R and S.

In some embodiments, the DruC polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S. In some embodiments, the DruC polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S.

In some embodiments, the DruC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S. In some embodiments, the DruC polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S. In some embodiments, the DruC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S. In some embodiments, the DruC polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S. In some embodiments, the DruC polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns R and S.

In some embodiments, the DruC polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the DruC polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the DruC polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the DruC polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the DruC polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T.

In some embodiments, the nucleic acid sequence of a druC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the druC gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the nucleic acid sequence of a druC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the druC gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T. In some embodiments, the nucleic acid sequence of a druC gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns R and T.

In some embodiments, the term “DruD” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druD gene. In some embodiments, the term “DruD” refers to a DruD polypeptide.

In some embodiments, DruD polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruE or DruA polypeptide, or any combination thereof, in a genome of a prokaryotic cell. In some embodiments, DruD polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruE or DruA polypeptide, or any combination thereof, in a genome of a prokaryotic cell.

In some embodiments, DruD and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruD and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruD, DruE, and DruA are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruD, DruE, and DruA are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druD and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druD and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druD, druE, and druA genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druD, druE, and druA genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druD and druA genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druD and druA genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruD polypeptide is about 347 amino acids long (median gene size).

In some embodiments, the DruD polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W. In some embodiments, the DruD polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W. In some embodiments, the DruD polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 2-123, columns V and W.

In some embodiments, the DruD polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W. In some embodiments, the DruD polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W.

In some embodiments, the DruD polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W. In some embodiments, the DruD polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W. In some embodiments, the DruD polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W. In some embodiments, the DruD polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W. In some embodiments, the DruD polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-123, columns V and W.

In some embodiments, the DruD polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X. In some embodiments, the DruD polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X. In some embodiments, the DruD polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X. In some embodiments, the DruD polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X. In some embodiments, the DruD polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X.

In some embodiments, the nucleic acid sequence of a druD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, column P. In some embodiments, the druD gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X. In some embodiments, the nucleic acid sequence of a druD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X. In some embodiments, the druD gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X. In some embodiments, the nucleic acid sequence of a druD gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-123, columns V and X.

In some embodiments, the term “DruE” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druE gene. In some embodiments, the term “DruE” refers to a DruE polypeptide. In some embodiments, the druE gene encodes a polypeptide comprising a pfam00270 domain. In some embodiments, the druE gene encodes a polypeptide comprising a pfam00271 domain. In some embodiments, the druE gene encodes a polypeptide comprising a pfam09369 domain. In some embodiments, the druE gene encodes a polypeptide comprising a DUF1998 domain. In some embodiments, the druE gene encodes a polypeptide comprising a pfam00270 domain, a pfam00271 domain, a pfam09369 domain, or a DUF4338 domain, or any combination thereof. In some embodiments, the druE gene encodes a polypeptide comprising a pfam00270 domain, a pfam00271 domain, a pfam09369 domain, and a DUF4338 domain. In some embodiments, a druE gene encodes a polypeptide comprising a helicase activity. In some embodiments, a druE gene encodes a polypeptide comprising a DEAx box helicase activity.

In some embodiments, the DruE polypeptide comprises a pfam00270 domain. In some embodiments, the DruE polypeptide comprises a pfam00271 domain. In some embodiments, the DruE polypeptide comprises a pfam09369 domain. In some embodiments, the DruE polypeptide comprises a DUF1998 domain. In some embodiments, the DruE polypeptide comprises a pfam00270 domain, a pfam00271 domain, a pfam09369 domain, or a DUF4338 domain, or any combination thereof. In some embodiments, the DruE polypeptide comprises a pfam00270 domain, a pfam00271 domain, a pfam09369 domain, and a DUF4338 domain. In some embodiments, a DruE polypeptide comprises a helicase activity. In some embodiments, a DruE polypeptide comprises a DEAx box helicase activity.

In some embodiments, DruE polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruA polypeptide in a genome of a prokaryotic cell. In some embodiments, DruE polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruA polypeptide in a genome of a prokaryotic cell. In some embodiments, DruE polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a DruA polypeptide in a genome of a prokaryotic cell.

In some embodiments, DruE and DruA are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruE and DruA are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druE and druA genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druE and druA genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruE polypeptide is about 2104 amino acids long (median gene size).

In some embodiments, the DruE polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA. In some embodiments, the DruE polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA. In some embodiments, the DruE polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA.

In some embodiments, a DruE polypeptide homolog comprises a helicase domain. In some embodiments, a DruE polypeptide comprises a helicase activity.

In some embodiments, the DruE polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA. In some embodiments, the DruE polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA.

In some embodiments, the DruE polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA. In some embodiments, the DruE polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA. In some embodiments, the DruE polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA. In some embodiments, the DruE polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA. In some embodiments, the DruE polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 2-1343, columns Z and AA.

In some embodiments, the DruE polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the DruE polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the DruE polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the DruE polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the DruE polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB.

In some embodiments, the nucleic acid sequence of a druE gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the druE gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the nucleic acid sequence of a druE gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the druE gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB. In some embodiments, the nucleic acid sequence of a druE gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 2-1343, columns Z and AB.

In some embodiments, the term “DruM” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druM gene. In some embodiments, the term “DruM” refers to a DruM polypeptide. In some embodiments, the druM gene encodes a polypeptide.

In some embodiments, DruM polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruF polypeptide, a DruG polypeptide, and/or a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruM polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruF polypeptide, a DruG polypeptide, and/or a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruM polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a DruF polypeptide, a DruG polypeptide, and/or a DruE polypeptide in a genome of a prokaryotic cell.

In some embodiments, DruM. DruF, DruG, and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruM, DruF, DruG, and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druM, druF, druG, and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druM, druF, druG, and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruM polypeptide is about 386 amino acids long (median gene size).

In some embodiments, the DruM polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE. In some embodiments, the DruM polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE. In some embodiments, the DruM polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 124-295, columns AD and AE.

In some embodiments, a DruM polypeptide homolog comprises a cytosine methylase activity. In some embodiments, a DruM polypeptide homolog comprises a cytosine methylase.

In some embodiments, the DruM polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE. In some embodiments, the DruM polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE.

In some embodiments, the DruM polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE. In some embodiments, the DruM polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE. In some embodiments, the DruM polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE. In some embodiments, the DruM polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE. In some embodiments, the DruM polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AD and AE.

In some embodiments, the DruM polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, the DruM polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, the DruM polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, the DruM polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, the DruM polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF.

In some embodiments, the nucleic acid sequence of a druM gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, the druM gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, a druM gene homolog encodes a cytosine methylase. In some embodiments, the nucleic acid sequence of a druM gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, the druM gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF. In some embodiments, the nucleic acid sequence of a druM gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AD and AF.

In some embodiments, the term “DruF” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druF gene. In some embodiments, the term “DruF” refers to a DruF polypeptide. In some embodiments, the druF gene encodes a polypeptide.

In some embodiments, DruF polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruM polypeptide, a DruG polypeptide, and or a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruF polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruM polypeptide, a DruG polypeptide, and or a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruF polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding DruM polypeptide, a DruG polypeptide, and or a DruE polypeptide in a genome of a prokaryotic cell.

In some embodiments, DruF, DruG, and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruF, DruG, and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druF, druG, and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druF, druG, and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruF polypeptide is about 852 amino acids long (median gene size).

In some embodiments, the DruF polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI. In some embodiments, the DruF polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI. In some embodiments, the DruF polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 124-295, columns AH and AI.

In some embodiments, the DruF polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI. In some embodiments, the DruF polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI.

In some embodiments, the DruF polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI. In some embodiments, the DruF polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI. In some embodiments, the DruF polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI. In some embodiments, the DruF polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI. In some embodiments, the DruF polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AH and AI.

In some embodiments, the DruF polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the DruF polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the DruF polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the DruF polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the DruF polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ.

In some embodiments, the nucleic acid sequence of a druF gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the druF gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the nucleic acid sequence of a druF gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the druF gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ. In some embodiments, the nucleic acid sequence of a druF gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AH and AJ.

In some embodiments, the term “DruG” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druG gene. In some embodiments, the term “DruG” refers to a DruG polypeptide. In some embodiments, the druG gene encodes a polypeptide.

In some embodiments, DruG polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruM polypeptide, a DruF polypeptide, and or a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruG polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruM polypeptide, a DruF polypeptide, and or a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruG polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding DruM polypeptide, a DruF polypeptide, and or a DruE polypeptide in a genome of a prokaryotic cell.

In some embodiments, DruG and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruG and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druG and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druG, and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruG polypeptide is about 711 amino acids long (median gene size).

In some embodiments, the DruG polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM. In some embodiments, the DruG polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM. In some embodiments, the DruG polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 124-295, columns AL and AM.

In some embodiments, the DruG polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM. In some embodiments, the DruG polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM.

In some embodiments, the DruG polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM. In some embodiments, the DruG polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM. In some embodiments, the DruG polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM. In some embodiments, the DruG polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM. In some embodiments, the DruG polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 124-295, columns AL and AM.

In some embodiments, the DruG polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the DruG polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the DruG polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the DruG polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the DruG polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN.

In some embodiments, the nucleic acid sequence of a druG gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the druG gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the nucleic acid sequence of a druG gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the druG gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN. In some embodiments, the nucleic acid sequence of a druG gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 124-295, columns AL and AN.

In some embodiments, the term “DruH” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the druH gene. In some embodiments, the term “DruH” refers to a DruH polypeptide. In some embodiments, the druH gene encodes a polypeptide.

In some embodiments, DruH polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruH polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a DruE polypeptide in a genome of a prokaryotic cell. In some embodiments, DruH polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a DruE polypeptide in a genome of a prokaryotic cell.

In some embodiments, DruH and DruE are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, DruH and DruE are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, druH and druE genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, druH, and druE genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a DruH polypeptide is about 1079 amino acids long (median gene size).

In some embodiments, the DruH polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ. In some embodiments, the DruH polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ. In some embodiments, the DruH polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ.

In some embodiments, the DruH polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ. In some embodiments, the DruH polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ.

In some embodiments, the DruH polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ. In some embodiments, the DruH polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ. In some embodiments, the DruH polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ. In some embodiments, the DruH polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ. In some embodiments, the DruH polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 10, rows 296-1343, columns AP and AQ.

In some embodiments, the DruH polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the DruH polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the DruH polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the DruH polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the DruH polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR.

In some embodiments, the nucleic acid sequence of a druH gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the druH gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the nucleic acid sequence of a druH gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the druH gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR. In some embodiments, the nucleic acid sequence of a druH gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 10, rows 296-1343, columns AP and AR.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System IIIa component” or “functional fragment of Defense System IIIa component” or “functional portion of a Druantia Type I defense system component” or “functional fragment of Druantia Type I defense system component” refers to a functional portion of a Druantia polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Druantia polynucleotides or polypeptides disclosed herein or functional portions thereof.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System IIIb component” or “functional fragment of Defense System IIIb component” or “functional portion of a Druantia Type II defense system component” or “functional fragment of Druantia Type II defense system component” refers to a functional portion of a Druantia polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Druantia polynucleotides or polypeptides disclosed herein or functional portions thereof.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System IIIc component” or “functional fragment of Defense System IIIc component” or “functional portion of a Druantia Type III defense system component” or “functional fragment of Druantia Type III defense system component” refers to a functional portion of a Druantia polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Druantia polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “DruA”, “DruB”, “DruC”, “DruD”, “DruE”, “DruF”, “DruG”, “DruH”, “DruM”, “druA”, “druB”, “druC”, “druD”, “druE”, “druF”, “druG”, “druH”, and “druM”, also refer to functional DruA, DruB, DruC, DruD, DruE, DruF, DruG, DruH, DruM, druA, druB, druG, druD, druE, druF, druG, druH, and druM, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide referenced in Table 10 rows 2-123, columns J and K; rows 2-123, columns N and O; rows 2-123, columns R and S; rows 2-123, columns V and W; rows 2-1343, columns Z and AA; rows 124-295, columns AD and AE; rows 124-295, columns AH and AI; rows 124-295, columns AL and AM, and rows 296-1343, columns AP and AQ, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homologous or identical to the polynucleotide sequences referenced in Table 10 rows 2-123, columns J and L; rows 2-123, columns N and P; rows 2-123, columns R and T; rows 2-123, columns V and X; rows 2-1343, columns Z and AB; rows 124-295, columns AD and AF; rows 124-295, columns AH and AJ; rows 124-295, columns AL and AN, and rows 296-1343, columns AP and AR, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology within similar domain regions of the polypeptide sequences referenced in Table 10 rows 2-123, columns J and K; rows 2-123, columns N and O; rows 2-123, columns R and S; rows 2-123, columns V and W; rows 2-1343, columns Z and AA; rows 124-295, columns ad and AE; rows 124-295, columns AH and AI; rows 124-295, columns AL and AN, and rows 296-1343, columns AP and AQ, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity within nucleotide sequences encoding similar domain regions to the polynucleotide sequences referenced in Table 10 rows 2-123, columns J and L; rows 2-123, columns N and P; rows 2-123, columns R and T; rows 2-123, columns V and X; rows 2-1343, columns Z and AB; rows 124-295, columns AD and AF; rows 124-295, columns AH and AJ; rows 124-295, columns AL and AN, and rows 296-1343, column AP and AR, respectively.

Table 10 presents embodiments of components of Defense System III (IIIa; IIIb; and IIIc) that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 10 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System III (IIIa; IIIb; and IIIc; referenced in Table 18).

The Hachiman Defense System

In some embodiments, a defense system disclosed herein comprises a Hachiman anti-phage defense system. (Table 12) In some embodiments, a Hachiman defense system provides a host cell with resistance to at least one phage.

In some embodiments, a Hachiman defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Hachiman defense system (Defense System IV) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a bacterial cell expressing a Hachiman defense system (Defense System IV) protects the bacteria from phage infection. In some embodiments, a bacterial cell expressing a functional Hachiman defense system (Defense System IV) protects the bacteria from phage infection.

In some embodiments, a Hachiman defense system provides a host cell with resistance to plasmid transformation. In some embodiments, a host cell expressing a functional Hachiman defense system (Defense System IV) provides a host cells with resistance to plasmid transformation.

In some embodiments, a Hachiman defense system provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Hachiman defense system (Defense System IV) provides the host cell resistance from entry of conjugative elements.

As used herein, the term “a Hachiman anti-phage defense system” may be used interchangeably with the term “a Defense System IV”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Hachiman system” may be used interchangeably in some embodiments with “Hachiman defense system”, “Hachiman the defense system”, “Hachiman anti-phage system”, and “Defense System IV”, having all the same meanings and qualities.

In some embodiments, a microbial species does not comprise an endogenous Defense System IV. In some embodiments, a microbial species does not express an endogenous Defense System IV. In some embodiments, a microbial species does not express a functional Defense System IV.

In some embodiments, a bacterial species does not comprise an endogenous Defense System IV. In some embodiments, a bacterial species does not express an endogenous Defense System IV. In some embodiments, a bacterial species does not endogenously express a functional Defense System IV.

A Hachiman defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a HamA polypeptide comprising a pfam08878 domain or a DUF1837 domain or a combination thereof, and a HamB polypeptide comprising COG1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof. In some embodiments, a Hachiman defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a hamA gene and a hamB gene.

A Hachiman defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a HamA polypeptide comprising a pfam08878 or a DUF1837 domain or a combination thereof, and a HamB polypeptide comprising a COG1204 domain or a pfam00270 domain or a pfam00271 domain, or any combination thereof. In some embodiments, a Hachiman defense system comprises a nucleic acid construct comprising a nucleic acid sequence encoding a HamA polypeptide and a HamB polypeptide.

In some embodiments, a Hachiman defense system comprises, a HamA polypeptide comprising a pfam08878 or a DUF1837 domain or a combination thereof, and a HamB polypeptide comprising a COG1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof. In some embodiments, a Hachiman defense system comprises a HamA polypeptide and a HamB polypeptide.

In some embodiments, a Defense System IV comprising a HamA polypeptide comprising a pfam08878 domain or a DUF1837 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns H and I; or a HamB polypeptide comprising COG1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns L and M; any combination thereof.

In some embodiments, a Defense System IV comprises at least two different polypeptide components selected from a HamA polypeptide comprising a pfam08878 domain or a DUF1837 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns H and I; and a HamB polypeptide comprising COG1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns L and M.

In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a HamA polypeptide and a HamB polypeptide. In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a hamA gene and a hamB gene.

In some embodiments, the Hachiman anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising hamA and hamB genes.

In some embodiments, a construct comprising the Hachiman defense system encodes one component of the defense system, whereby multiple constructs, for example but not limited to, two constructs may be used to assemble the functional defense system. In some embodiments, the components of a Hachiman defense system comprise genes hamA and hamB. In some embodiments, the components of a Hachiman defense system consist of genes hamA and hamB. In some embodiments, the components of a Hachiman defense system comprise nucleic acid sequences encoding a HamA polypeptide and a HamB polypeptide. In some embodiments, the components of a Hachiman defense system consist of nucleic acid sequences encoding a HamA polypeptide and a HamB polypeptide.

In some embodiments, a construct comprising the Hachiman defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Hachiman defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of HamA and HamB may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Hachiman defense system.

In some embodiments, the components making up a functional Hachiman anti-phage defense system comprise a HamA polypeptide and a HamB polypeptide, each encoded by a hamA and a hamB gene, respectively.

In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid encoding a HamA polypeptide. In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid encoding a HamA polypeptide and a HamB polypeptide. In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid encoding a HamB polypeptide.

In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid comprising a hamA gene. In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid comprising a hamA gene and a hamB gene. In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid comprising hamB gene.

In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is HamA and HamB. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of nucleic acid sequences encoding HamA and HamB.

In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is hamA and hamB. In some embodiment, the 5′ to 3′ order of genes in a Hachiman defense system is not hamA and hamB. In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of hamA and hamB.

In some embodiments, the Hachiman system (Defense System IV) composition and order is as shown in FIG. 3B.

In some embodiments, a Hachiman defense system having an anti-phage activity originates from a microbial genome, for example a bacterial and or an archaeal genome (Table 12). A skilled artisan would appreciate that the Hachiman system is not present in the majority of bacteria and or archaea species.

In some embodiments, introducing a combination of polypeptide components within a defense system disclosed herein, for example taking HamA from one bacterium and HamB from another bacterium and combining them into HamA-HamB functional defense system that defends against foreign elements that are not naturally occurring is advantageous to the host cell comprising the non-naturally occurring polypeptide components. In some embodiments, introducing a combination of polypeptide components within any defense system disclosed herein, and combining them to form a functional defense system that defends against foreign elements that are not naturally occurring, is advantageous to the host cell comprising the combination of non-naturally occurring polypeptide components.

In some embodiments, a functional Hachiman defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. For example, the source of the nucleic acid sequence encoding a HamA polypeptide may be one microbial species, while the source of the nucleic acid sequence encoding a HamB polypeptide may be a different microbial species. In some embodiments, a functional Hachiman defense system comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Hachiman defense system comprises a combination of at least two polypeptides that do not naturally occur together.

In some embodiments, a functional Hachiman defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a HamA polypeptide may be one bacterial species, while the source of the nucleic acid sequence encoding a HamB polypeptide may be a different bacterial species.

In some embodiments, the source of the nucleic acid encoding a HamA polypeptide and a HamB polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a HamA polypeptide and a HamB polypeptide is the not the same. In some embodiments, the source of the nucleic acid sequence of any of the components of a Hachiman defense system comprises any of the species listed in Table 12.

In some embodiments, a Hachiman defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Hachiman system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. According to some embodiments, the Hachiman system components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Hachiman system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Hachiman defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Hachiman defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 12. According to some embodiments a prokaryotic cell expresses a non-endogenous Hachiman defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Hachiman defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Hachiman defense system is selected from the group consisting of the species listed in Table 12.

In some embodiments, a Hachiman (Defense System IV) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 4; construct 3 Table 4) 1 taaaagctgc ttcaggtaaa tatcctgaag cagcttttgt ggttaaaaga gaaagtaggt 61 aatagtcatt tgtagtgtat taaagaagat ggaggtgaat aaaacgatgt aatttaagcc 121 ataagttggc cgctttggcc aatgttttct ttattttata tatggtaaaa ttataattag 181 tttagatagt acatttgctt agtaaagatg tactttaaaa aaaaataaat ttatttttgt 241 ggctcttaac gaaatgaata tgctattttg atgtatctta ggtagaaatc taaaaatatt 301 aagaagttgt taaacagcgt taagctagga ggaaatatat gactatacaa gatgatatgg 361 ttggaaaaca tcctatcgag aatgattttt ggaaatggtt gcagcatgaa gatacagaat 421 cctcggattt aaaacggcat cgttacttag aagtggattc tagtaatcgt gatgaagcta 481 ttaaatctgt tgcagcttgg ctaattaagt atcatttgtc ggaaggtaaa aagagagtga 541 taagaaaaaa acaagaaata cttgaaaaac atgattttgc tgaatatgca caatcgcttc 601 atgtttttcc taaaagtgat aaaacacaga aaggaaattt aggagaaata tttttatcgg 661 aatatttgag tcagacatca ggagttcaaa tcctagtgta taaattacac tacaacccca 721 acatagatca atcgatgaaa ggggatgacg ttttacttgt taacccagat aaagttttat 781 taggagaaag taaatttcgt tctactccaa ataaacgtgc tgttgaagag gcttctgaac 841 ttatgaaaga taagttaact ttgcctatgt ctcttggttt tattgcagat agattatttg 901 aacaaggaaa agatgaatta ggtgaagtga ttttcgatct tcaatttaag atgagtagta 961 tagaaataga tattaaaaat atagggtttt tattatctac taaaaaggtt cgtagtatcg 1021 tagaaaataa cctttcttct ccaaattctg attttatttt tatttcatta ggaatggatg 1081 acccagcagc ttttttgaaa agtgtatttg actatgcaga aagtaatctt ctggagggat 1141 cttatgaaac ttgaaacagc atataattat tttgaaaagc ttgaaaaaga tgaacgtctt 1201 caaaactata tttcacaggc taattcaaga tatatccttt acatagcaaa tgaaccattg 1261 gaaaatttcc cacattacac tgtaaatcta gatgaaaaat gtacacatat agcatttagt 1321 tatctcaatt gtggatggcg ctttttttta gagaaaatca gtgatgaagc tacaaaatgt 1381 atggaaaagg cttctgaaat attggagtat ttgtatgcct atagtgattg cgaaaagtta 1441 tataaagagt attaccgttt agtatgctca ttagcgtatt atatatctgc acagtattct 1501 aaatctttta ttatcttggg gaaatataat tctgattcat atatagggaa aataacaaaa 1561 ttatttttaa ctagaaactt tatagaatta gaaaggcaac tggaaattaa gtacttgaag 1621 aacgatgaag aaacttcaag tgagaataag gataacataa tatatgaaaa aattttatct 1681 aatgcatttt tacatataat taattttatt cgcacaggga agatggaatc tttggaaagt 1741 tctaaagata tggttcgaga tttaattact ttggctgata taaataatga accacatatg 1801 tggtggtact ttagactact atatttggtt tttgaagaat atgaagatgg gtctttgtgg 1861 aaagtggttc caccgctttt agataatgat gatatatcag ctaaatatat ttatgctaat 1921 ttatacaaaa agaagccaat aactgaattt tttaagtcgc aaagggaatg tttggacgga 1981 gagttattaa agaacgatgg tttcgtaatt ggaatgccta ctagttcagg aaaaacaaag 2041 gttgctgaag taacaatatt aaaaacttta actaaatctc caggtgcact ttgtatttat 2101 attgcacctt atcgatcttt ggctaatgaa gtggaattta gcctatctag tatgtttgag 2161 attatgggtt atcaggtttc gcagttatat gggggatctc aaacgtctcc gctggatcgg 2221 caattgacta agcaagctaa tgtcataatt gttactccgg aaaaagctaa atcgatgttg 2281 agatctaata aagacttaaa ggatagaatt caacttgtaa tcattgatga aggtcattta 2341 gtcgggtttc agccaagata tattacagga gaattgctta ttgaagaact aaagattgtt 2401 ttgaaaaaaa ataatggtca acttgtacta ctatctgctg ttcttcctaa tatttctgat 2461 ttttctttgt ggattggtga ggatgataaa gctaaaagaa tgtctgtctg gagaccatca 2521 agtcaaagat ttggagaatt atctttagca agaaatactg tgaatataaa ttgggaggga 2581 gaaacaccat catataataa gaactttata acaccaaaat tagtaaaacc agaacggatt 2641 acaaaaacag gaaggaaata tgcagctaaa tattttccag cagataaaaa agaaggtgtt 2701 gctgcaaccg caacaaaaat gctagatgtg ggatccgttt tgatttatgt aggaagatcg 2761 aatatggtat tgtctcaagc taggattgtt tcgaaactct ttgaggaaaa gggaatagaa 2821 catgagtgga ggaataaaaa cgattggttg tttgtggaat tagcttgtat agaagaatat 2881 ggggaagatt cagaaatatt atctttatta aaacaaggta tagtacccca tagttctaaa 2941 ttaccaacag aagtacgtca gagcatagag aaattaatgg ctaatgataa tcctaagata 3001 ataattgcga catccacact tggacaaggg gttaatattg gtgtttcgac agttattgta 3061 tctaatgttc gtttagatga gagtaatact gtaaaagtaa atgatttttg gaatattgct 3121 ggtagagcgg ggagggcatt tacagataca gagggtaaaa ttctatacgc aattgataga 3181 aataaaagcc agtggtctat ttataatcaa attcaaatga aagaaatgta tttcaaatat 3241 agaaatattg aaaaagctac aagtggtctc tatcttcttc ttcgttatct atttatatta 3301 tcggaagaat tcgagataga atacagctta tttttagaac ttctagcaga aaatagagaa 3361 tccattgatg aacagaaagc tgtggagttt ttttctgagg cagatcagtt ccttgagtta 3421 ttagatgata ctctaatttc catggatatt atgaatgagg caaacgtttt ggaaaattcc 3481 tcttcttgga tagacgatgt ctttcgttct tcgctagctt ttattcaagc aaaacaagat 3541 caatcatttt ctgaagaaaa aatgattgaa atcttaaaag caagaaattc aggtgtaata 3601 aagttggctg gagaagaaac aaaatggcat tcaatagcat catcaagtgt accattgaga 3661 gcaagtcttg taattgaaca taggatagat gagctactaa agtatgtacg aaaatacatt 3721 gactcagata agagttttga agagttatta tctcttgtga tggaacttga tatatttatt 3781 gatagtctac cgatatctaa aatagaagga atagaaatag gtgctaattt ttctgaaatt 3841 cgtgagggat ggtttagtgg tactagcata cacatattgg aaaaaaggca cgaaaatgta 3901 agaagtatct gtaatgaata ttattctttt cattttcctt ggattgtaaa tgcgatagct 3961 caaaagatca aattaattga ttgccaagag gaatcaaagg tgttggagca aatttcttta 4021 tttgctgaaa tagggttaaa caataataaa agtgtaaaaa tctatttggc aggtataaag 4081 tcaagaaatt gtgccactga attatctgag aaaataggca tggataatga tttggtgacg 4141 cctgttaagg agctacttct agagtttttc aatttatgtg tagtgaaaaa agaggattgt 4201 tcagaaattt gtttcaattg gttaaagctt ttaaatgatg aaaaagaagc taaagagtat 4261 gtaaaggtaa aaagacggtc tttccaattt aatattcctt ttgatttaca tgacaatctt 4321 ttatatataa agaaagtaca gagtgaaata tggctgtgct catttgatta taaaattaaa 4381 attcctgtat taaaagagaa ggcgttattt aatgagtgct cggatatacc tgatattttc 4441 ttgagaaagg aaaaaggaga tgtctggatt ttagattctc ataatcctta tattattttt 4501 tattaattta tttgaattta atattttgga taaggcagat tgttcaacta tttggaggaa 4561 ataaaaaaac ggattattaa gggtgaacta aatttaatca aactttttac aaatctgcat 4621 ctttctcatt ttcaccttta aaaatgccaa ggaactcaat gaaatttggt atgcagatac 4681 cttcaagagc caccaatcct aaagtgaaat ctccatagtt tttacgatat tcttcataaa 4741 ttaatctggc tatatcttca ccaaaagaaa acatttcttt tgttatttcg gaaagataag 4801 gtagaagtgg tatatactca tctggtttac ctttttcatt tgaaggtact tttactgcat 4861 acccttgatc aagtgtcata atgttaattt gatgaccact atgtacaata gaatcgcgta 4921 tttctctatt cttatgaaag ctttctataa tagataatag ttttttttct aaggattcag 4981 gtaatttatc cttggttgtt cctttttcaa cggaagtaat taaactattt aaggaatcaa 5041 aactgagttg tccaacaaat ttaggagcta ctgttaatcg taggattttt gccatgaaat 5101 cataaattga acgaatatcc at.

The coding regions for each of the hamA and hamB gene sequences within this embodiment of a Hachiman cassette (SEQ ID NO: 4) are as follows: nucleotides 339-1154 encode an embodiment of a HamA polypeptide, and nucleotides 1114-4506 encode an embodiment of a HamB polypeptide.

In some embodiments, a Defense System IV comprising a HamA polypeptide and a HamB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 4. In some embodiments, a Defense System IV comprising a HamA polypeptide and a HamB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 4. In some embodiments, a Defense System IV comprising a HamA polypeptide and a HamB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 4. In some embodiments, a Defense System IV comprising a HamA polypeptide and a HamB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 4. In some embodiments, a Defense System IV comprising a HamA polypeptide and a HamB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 4.

In some embodiments, Hachiman defense system components comprise HamA and HamB polypeptides. In some embodiments, Hachiman defense system components comprise functional portions of HamA and HamB polypeptides. In some embodiments, the Hachiman defense system components are encoded by hamA and hamB genes.

Non-limiting embodiments of endogenous Hachiman systems and the respective location of their components are provided in Table 12 herein.

In some embodiments, the components of a Hachiman system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, the term “HamA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the hamA gene. In some embodiments, the term “HamA” refers to a HamA polypeptide. In some embodiments, the hamA gene encodes a polypeptide comprising a pfam08878 domain. In some embodiments, the hamA gene encodes a polypeptide comprising a DUF1837 domain. In some embodiments, the hamA gene encodes a polypeptide comprising a pfam08878 domain and a DUF1837 domain. In some embodiments, the HamA polypeptide comprises a pfam08878 domain. In some embodiments, the HamA polypeptide comprises a DUF1837 domain. In some embodiments, the HamA polypeptide comprises a pfam08878 domain and a DUF1837 domain.

In some embodiments, HamA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a HamB polypeptide in a genome of a prokaryotic cell. In some embodiments, HamA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a HamB polypeptide in a genome of a prokaryotic cell. In some embodiments, HamA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a HamB polypeptide in a genome of a prokaryotic cell.

In some embodiments, HamA and HamB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, HamA and HamB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, hamA and hamB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, hamA and hamB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a HamA polypeptide is about 269 amino acids long (median gene size).

In some embodiments, the HamA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I. In some embodiments, the HamA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I. In some embodiments, the HamA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 12, rows 2-1782, columns H and I.

In some embodiments, the HamA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I. In some embodiments, the HamA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I.

In some embodiments, the HamA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I. In some embodiments, the HamA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I. In some embodiments, the HamA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I. In some embodiments, the HamA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I. In some embodiments, the HamA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns H and I.

In some embodiments, the HamA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the HamA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the HamA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the HamA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the HamA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J.

In some embodiments, the nucleic acid sequence of a hamA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the hamA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the nucleic acid sequence of a hamA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the hamA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J. In some embodiments, the nucleic acid sequence of a hamA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns H and J.

As used herein, the term “HamB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the hamB gene. In some embodiments, the term “HamB” refers to a HamB polypeptide. In some embodiments, the product of the hamB gene comprises a COG1204 domain. In some embodiments, the hamB gene encodes a pfam00270 domain. In some embodiments, the hamB gene encodes a pfam00271 domain. In some embodiments, the hamB gene encodes a helicase.

In some embodiments, HamB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a HamA polypeptide in a genome of a prokaryotic cell. In some embodiments, HamB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a HamA polypeptide in a genome of a prokaryotic cell. In some embodiments, HamB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a HamA polypeptide in a genome of a prokaryotic cell.

In some embodiments, HamA and HamB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments HamA and HamB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a HamB polypeptide is about 867 amino acids long (median gene size).

In some embodiments, the HamB polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M. In some embodiments, the HamB polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M. In some embodiments, the HamB polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 12, rows 2-1782, columns L and M.

In some embodiments, a HamB polypeptide homolog comprises a helicase domain.

In some embodiments, a HamB polypeptide homolog comprises a helicase activity.

In some embodiments, the HamB polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M. In some embodiments, the HamB polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M.

In some embodiments, the HamB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M. In some embodiments, the HamB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M. In some embodiments, the HamB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M. In some embodiments, the HamB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M. In some embodiments, the HamB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 12, rows 2-1782, columns L and M.

In some embodiments, the HamB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the HamB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the HamB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the HamB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the HamB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N.

In some embodiments, the nucleic acid sequence of a hamB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the hamB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the nucleic acid sequence of a hamB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the hamB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N. In some embodiments, the nucleic acid sequence of a hamB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 12, rows 2-1782, columns L and N.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System IV component” or “functional fragment of Defense System IV component” or “functional portion of a Hachiman defense system component” or “functional fragment of Hachiman defense system component” refers to a functional portion of a Hachiman polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Hachiman polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “HamA”, “HamB”, “hamA”, and “hamB”, also refer to functional HamA, HamB, hamA, and hamB, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences referenced in Table 12 rows 2-1782 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homologous or identical to the polynucleotide sequences referenced in Table 12 rows 2-1782 columns H and J and L and N, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within similar domain regions of the polypeptide sequences referenced in Table 12 rows 2-1782 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within nucleotide sequences encoding similar domain regions to the polynucleotide sequences referenced in Table 12 rows 2-1782 columns H and J and L and N, respectively.

Table 12 presents embodiments of components of Defense System IV that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 12 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System IV (referenced in Table 18).

The Shedu Defense System

In some embodiments, a defense system disclosed herein comprises a Shedu anti-phage defense system. (Table 13)

In some embodiments, a Shedu defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Shedu defense system (Defense System V) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Shedu defense system provides a host cell with resistance to at least one phage. In some embodiments, a microbial cell comprising a Shedu defense system is protected from phage infection. In some embodiments, a microbial cell expressing a Shedu defense system is protected from phage infection. In some embodiments, a microbial cell expressing a functional Shedu defense system is protected from phage infection. In some embodiments, a bacterial cell comprising a Shedu defense system is protected from phage infection. In some embodiments, a bacterial cell expressing a Shedu defense system is protected from phage infection. In some embodiments, a bacterial cell expressing a functional Shedu defense system is protected from phage infection.

In some embodiments, a Shedu defense system provides a host cell with resistance to a plasmid.

In some embodiments, a Shedu defense system (Defense System V) provides a host cell with resistance to plasmid transformation. In some embodiments, a host cell expressing a functional Shedu defense system (Defense System V) provides a host cells with resistance to plasmid transformation.

In some embodiments, a Shedu defense system (Defense system V) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Shedu defense system (Defense System V) provides the host cell resistance from entry of conjugative elements.

As used herein, the term “a Shedu anti-phage defense system” may be used interchangeably with the term “a Defense System V”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Shedu system” may be used interchangeably in some embodiments with “Shedu defense system”, “Shedu the defense system”, “Shedu anti-phage system”, and “Defense System V”, having all the same meanings and qualities.

In some embodiments, a microbial species does not comprise an endogenous Defense System V. In some embodiments, a microbial species does not express an endogenous Defense System V. In some embodiments, a microbial species does not express a functional Defense System V.

In some embodiments, a bacterial species does not comprise an endogenous Defense System V. In some embodiments, a bacterial species does not express an endogenous Defense System V. In some embodiments, a bacterial species does not express an endogenous functional Defense System V.

A Shedu defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a SduA polypeptide comprising a pfam14082 domain or a DUF4263 domain or a pfam01939 domain, or a combination thereof. In some embodiments, a Shedu defense system comprises a SduA polypeptide comprising an endonuclease NucS activity. A skilled artisan would appreciate that an endonuclease NucS activity encompasses an enzymatic activity cleaving both 3′ and 5′ ssDNA extremities of branched DNA structures, wherein the NucS endonuclease may bind to ssDNA. In some embodiments, a Shedu defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a sduA gene.

A Shedu defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence comprising a sduA gene encoding a pfam14082 domain or a DUF4263 domain or a pfam01939 domain, or a combination thereof. In some embodiments, a Shedu defense system comprising a sduA gene encodes a polypeptide comprising an endonuclease NucS activity.

In some embodiments, a Defense System V comprises a SduA polypeptide comprising a pfam14082 domain or a pfam01939 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 13 rows 2-1247 columns H and I or a combination thereof.

In some embodiments, a Shedu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a SduA polypeptide. In some embodiments, a Shedu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a sduA gene.

In some embodiments, the Shedu anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising a sduA gene.

In some embodiments, a construct comprising the Shedu defense system encodes one component of the defense system. In some embodiments, the components of a Shedu defense system comprise a sduA gene. In some embodiments, the components of a Shedu defense system consist of a sduA gene. In some embodiments, the components of a Shedu defense system comprise nucleic acid sequences encoding a SduA polypeptide. In some embodiments, the components of a Shedu defense system consist of nucleic acid sequences encoding a SduA polypeptide.

In some embodiments, a construct comprising the Shedu defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Shedu defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. In some embodiments, the Shedu defense system comprises non-coding RNA.

In some embodiments, the components making up a functional Shedu anti-phage defense system comprise a SduA polypeptide encoded by a sduA gene.

In some embodiments, a Shedu defense system having an anti-phage activity comprises a nucleic acid encoding a SduA polypeptide.

In some embodiments, a Shedu defense system having an anti-phage activity comprises a nucleic acid comprising a sduA gene.

In some embodiments, the Shedu system (Defense System V) composition and order is as shown in FIG. 3B.

In some embodiments, a Shedu defense system having an anti-phage activity originates from a microbial genome, for example a bacterial and or an archaeal genome (Table 13). A skilled artisan would appreciate that the Shedu system is not present in the majority of bacteria and or archaea species.

In some embodiments, a Shedu defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions. In some embodiments, the non-coding regions comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, Shedu defense system components comprise functional portions of a SduA polypeptides. In some embodiments, the Shedu defense system functional portions of a SduA polypeptide component is encoded by a sduA gene.

Non-limiting embodiments of endogenous Shedu systems and the respective location of their component are provided in Table 13 herein. In some embodiments, a Shedu (Defense System V) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 9; construct 28 Table 4) 1 aatgaaattt gaacgccttt cggcagtgat atttgtacac ctcattttta cgtgccagcg 61 tgatgtacat gaaaagtggt gaaaagattc ctattgtggc tgagagtagt agcatgatga 121 tggtgtttct tttttctttt ttgatggttt tcatgagtga tttggccccc tttttgtttt 181 gtcttcttta aattaggggt gacgttgggg gagatgcaag gggaatctgt agaaaaattg 241 attgagaccg atatagataa attccatatt tttatttatg aaatcctata ctgtcaatat 301 taatcaaaac aattaatgag atcaaatttt tttgttcatc agacattaat agaatgattg 361 tatggataat agtagtttct ttatcacaac aacgcattat catgaagctc cacaatagga 421 ttgtagaata acctcaaatt caatcctatg ttcattgaaa agggggcggg gaactcttta 481 aacatctcca cgaggtattt tgagtgtatg tgctttatta attctacatg cttaggctaa 541 ctaatcatta atagactaca aaaaacattc atgcctagta cagaaacaca cccttctcat 601 tgaagaagac taaccagtgg tattcgcaaa agaagaaaag aggattacct caacagccac 661 ctaccttttt atattgtaaa tatgtcctat ttaattcgga gtagtgtata ctattagtag 721 aaaattccaa gcgtagctat cgaggagtgt taacaaaata tgagtgacaa aattaatgta 781 tggacaacat caagagactc tgctgtatgt ggtgacattg aattaaaaaa aacatctact 841 actagactta tttttaggcc tgaaatagtg aacaataata aaaatcctaa ggcatctgtt 901 agaggatgct ttatctttca aaagaaaggt agaaatgccc tttgggatga ttataaggaa 961 ttagatatga ataagttaaa agcagaggaa tggattaaac tagagataaa ctctgatgct 1021 atgctgactc ttactaaaga aattcagaag cattatgcag tgcatgaaaa gtatggggtt 1081 aggtatggag catttcacct tttcaaggat aaccctgata tcgagaaact gattgaaatg 1141 tttgagagta acactgattt gcttactcaa ttaatggagg atgacaagag tgaagctcta 1201 gagaaaacat tagaatggat tgttacaaat gataatccag ataaaataat tgacaggctt 1261 aaaaatctaa aagagcaaga tttagaccaa cttaatactc ttattgggat agctaatcta 1321 aaaaaggtat tgtctgtttg ggaaagcaac aaactcacta atacctctga gaagttttgg 1381 caaagtgtct taaaagaaaa cacttggatt ttgagtcaga ttttctctaa cccgactgtt 1441 ttgataaatg atgaagccta tgtaggcgga aagactgtca aaaatgatag tggtaagtta 1501 gtagatttct tatatgcaaa ccctttctca aaagatgctg tacttattga gattaagact 1561 ccatcaacgc ctctaattac tcccactgaa tacagaacag gagtatattc cgcacataaa 1621 gacttgacag gagcagttac gcaagtgttg acttataaga caaccctaca gagggagtat 1681 cagaatatag actataacaa ttatagacag ggaatcaaaa ctgattttga cattattact 1741 ccttgttgtg ttgttatagc aggcatgttt gatacattaa ctgatacagc tcatagacat 1801 tcctttgaac tgtacagaaa agagttaaaa aatgtaactg taattacttt tgatgaactg 1861 tttgaaaggg ttaaggggtt aatcaagcta ttggaaggat aaacccttgc cttctttttt 1921 tactgcctct aaatttatag aatgcatccg ttaaagctaa gtagaaatat tagaagaaag 1981 ggcaaaattt aaagagagaa atttgccttt tctttttatc aaactgatca aaaaatttta 2041 tatttcaatc actttatttc gccacctgaa tttttttatt ttttaaaagt gccttgcctc 2101 tcaccaattc aggtcattat aaaacaaaaa aagaaccgtt tatcaacaac aaacggtccg 2161 attaaaaatc ttgtgcgtat ctattaaaaa taacttaata aaacatgctt att.

The coding region for the sduA gene sequence within this embodiment of a Shedu cassette (SEQ ID NO: 9) is as follows: nucleotides 760-1902 encode an embodiment of a SduA polypeptide.

In some embodiments, a Defense System V comprising a SduA polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 9. In some embodiments, a Defense System V comprising a SduA polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 9. In some embodiments, a Defense System V comprising a SduA polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 9. In some embodiments, a Defense System V comprising a SduA polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 9. In some embodiments, a Defense System V comprising a SduA polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 9.

In some embodiments, the components of a Shedu system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, the term “SduA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the sduA gene. In some embodiments, the term “SduA” refers to a SduA polypeptide. In some embodiments, the sduA gene encodes a polypeptide comprising a pfam14082 domain. In some embodiments, the sduA gene encodes a polypeptide comprising a DUF4263 domain. In some embodiments, the sduA gene encodes a polypeptide comprising a pfam01939 domain. In some embodiments, the sduA gene encodes a polypeptide comprising a pfam14082 domain, a DUF4236 domain, or a pfam01939 domain, or any combination thereof. In some embodiments, the SduA polypeptide comprises a pfam14082 domain. In some embodiments, the SduA polypeptide comprises a DUF4263 domain. In some embodiments, the SduA polypeptide comprises a pfam01939 domain. In some embodiments, the SduA polypeptide comprises a pfam14082 domain, a DUF4263 domain, or pfam01939 domain, or any combination thereof.

In some embodiments, a SduA polypeptide is about 367 amino acids long (median gene size).

In some embodiments, the SduA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I. In some embodiments, the SduA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I. In some embodiments, the SduA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 13, rows 2-1247, columns H and I.

In some embodiments, a SduA polypeptide homolog comprises an endonuclease NucS domain. In some embodiments, a SduA polypeptide homolog comprises an endonuclease NucS activity. In some embodiments, a SduA polypeptide homolog comprises an activity that cleaves both 3′ and 5′ ssDNA extremities of branched DNA structures. In some embodiments, a SduA polypeptide homolog binds to ssDNA. In some embodiments, a SduA polypeptide homolog comprises an activity that cleaves both 3′ and 5′ ssDNA extremities of branched DNA structures and it binds to ssDNA. In some embodiments, an SduA polypeptide comprises a member of the PD-(D/E)XK superfamily.

In some embodiments, the SduA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I. In some embodiments, the SduA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I.

In some embodiments, the SduA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I. In some embodiments, the SduA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I. In some embodiments, the SduA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I. In some embodiments, the SduA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I. In some embodiments, the SduA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 13, rows 2-1247, columns H and I.

In some embodiments, the SduA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the SduA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the SduA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the SduA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the SduA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J.

In some embodiments, the nucleic acid sequence of a sduA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the sduA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the nucleic acid sequence of a sduA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the sduA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J. In some embodiments, the nucleic acid sequence of a sduA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 13, rows 2-1247, columns H and J.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System V component” or “functional fragment of Defense System V component” or “functional portion of a Shedu defense system component” or “functional fragment of Shedu defense system component” refers to a functional portion of a Shedu polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone.

The terms “SduA” and “sduA”, also refer to functional SduA and sduA, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences referenced in Table 13 rows 2-1247 columns H and I, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polynucleotide sequences referenced in Table 13 rows 2-1247 columns H and J, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within similar domain regions of the polypeptide sequences referenced in Table 13 rows 2-1247 columns H and I, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity or homology within nucleotide sequences encoding similar domain regions to the sequences referenced in Table 13 rows 2-1247 columns H and J, respectively.

Table 13 presents embodiments of components of Defense System V that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 13 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System V (referenced in Table 18).

The Gabija Defense System

In some embodiments, a defense system disclosed herein comprises a Gabija anti-phage defense system. (Table 14)

In some embodiments, a Gabija defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Gabija defense system (Defense System VI) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Gabija defense system provides a host cell with resistance to at least one phage.

In some embodiments, a microbial cell comprising a Gabija defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a Gabija defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a functional Gabija defense system protects the microbial cell from phage infection. In some embodiments, a bacterial cell comprising a Gabija defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a Gabija defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a functional Gabija defense system protects the bacterial cell from phage infection.

In some embodiments, a Gabija defense system (Defense System VI) provides a host cell with resistance to plasmid transformation In some embodiments, a host cell expressing a functional Gabija defense system (Defense System VI) provides a host cells with resistance to plasmid transformation.

In some embodiments, a Gabija defense system (Defense system VI) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Gabija defense system (Defense System VI) provides the host cell resistance from entry of conjugative elements.

As used herein, the term “a Gabija anti-phage defense system” may be used interchangeably with the term “a Defense System VI”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Gabija system” may be used interchangeably in some embodiments with “Gabija defense system”, “Gabija defense system”, “Gabija anti-phage system”, and “Defense System VI”, having all the same meanings and qualities.

In some embodiments, a microbial species does not comprise an endogenous Defense System VI. In some embodiments, a microbial species does not express an endogenous Defense System VI. In some embodiments, a microbial species does not express an endogenous functional Defense System VI.

In some embodiments, a bacterial species does not comprise an endogenous Defense System VI. In some embodiments, a bacterial species does not express an endogenous Defense System VI. In some embodiments, a bacterial species does not express an endogenous functional Defense System VI.

A Gabija defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, and a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or a combination thereof. In some embodiments, a Gabija defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a gajA gene and a gajB gene.

In some embodiments, a Gabija defense system comprises, a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, and a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or any combination thereof. In some embodiments, a Gabija defense system comprises a GajA polypeptide and a GajB polypeptide.

In some embodiments, a Defense System VI comprises a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns H and I; or a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or any combination thereof or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns L and M; or a combination thereof.

In some embodiments, a Defense System VI comprises at least two different polypeptide components selected from a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns H and I; and a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or any combination thereof or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns L and M.

In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajA polypeptide and a GajB polypeptide. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajA polypeptide comprising an ATPase domain, and a GajB polypeptide comprising a helicase activity. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajA polypeptide comprising an ATPase domain. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajB polypeptide comprising a helicase activity. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajA polypeptide comprising an ATP-dependent endonuclease, and a GajB polypeptide comprising a UvrD helicase activity. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajA polypeptide comprising an ATP-dependent endonuclease activity. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajB polypeptide comprising a UvrD helicase activity.

In some embodiments, the Gabija anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising gajA and gajB genes.

In some embodiments, a Gabija (Defense System VI) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 5; construct 7 of Table 4) 1 gatcaaacaa tttattccta ttggaatggg ggaagagtcc caaactctca aagagctagt 61 tgatattgtt tggctgctgt gatggattta tttctaagaa aatagtgtgg gctattcatt 121 tttatgttgg atgtttgcag acttaataat gatagcttta gggaacactt actctgtaaa 181 atcggttatt ccctaaaccg ggatttaggt tcacagtata caagctctgg ggttacagaa 241 tacacttaat cttacagcat cattcaacca aaagagtctc tttatgataa tgcctgtgtc 301 gagtcatttt acggtattaa aaaaagaaga agtaaattat gtgcaatatc tagactacca 361 attttccaag ataagaaata tatgttttac gtttcggaaa tattagttgt atcaatggtt 421 tatagagcat tctacatttt cttgtgcaaa tcatgtaaca cagaaaaatg aagtttatga 481 aaaatattta tttatttttc actggtgaat actgaaatag tattcattta ttttttgttt 541 attttacaaa tttttttgaa agtcgttcaa tagcagagaa tttctagtat aattttggta 601 aataattcta tagattgatc ggaattatga atttaattta cagatatttt agagtaacat 661 tggagctatt atattaaaaa agaatgcttc aagattgagc gaacgatagc tttgggataa 721 attagctttt tggcggatag tgaagcagta acgagtaagt tagtaaataa agtgttaaat 781 agaataacag aagaatagga gagggcttta tgtatttaaa aagtttaaaa atctacaact 841 ttagaaaatt tggaacaaat aacaacaaga tagaatttgt tgatgctaaa agttttcaag 901 aacaaagaaa taaaaaagaa gtaaatattg ctccaacaac aactttaatt gtaggaaaga 961 ataactgtgg aaaaacaacg attattaaat cgttagataa tcttattaat aataataaag 1021 acgcttttaa agcaaatgat tttaattttt tatacttaaa aaaactaatt gagtattatg 1081 aacaagcaat tccaaaatta gatgatgaat taaaagaaaa aattaaaaca ccgtatcttc 1141 aatttaatat ttgtattgga attgagaata atagtaatga cttagttacc aatatagttc 1201 gttttatgaa attagatgat attaataatt ctgaattaaa aattgttata aaagtagaat 1261 tggagaacga agaagttttc attagagatg tgaaaaaact gttagagaaa aatgataatt 1321 cgagtcttcg gtttaatagc tttttggaat tgataaatga ttcggatttt aaaataaatt 1381 attataatac agataatgat aaaatagata attttaacat aaaaaattta attgaattga 1441 gaccgattaa agcaaataac attgaaagcg aaaaatgcct ttcaaaagct tttagtaaaa 1501 taattgaata tcgctataaa acattattcg aagaggaaag cgataatctt aattcgacaa 1561 tcataaatat taatcgaaca cttaccaaat taattagtga aaaacatacg gttagtataa 1621 ataagtcttt agaagaaatt gaatcaaatg aaaaacttca agtattgcta agggcagatt 1681 tgacttttca aaatgtgatg aataatttaa tcaaatatga atacgtcgaa cgtaatatga 1741 atatacctga gaatcaattt ggtttaggtt atacaaattt gatgatgata atagcggatt 1801 taattgatta tatggaaaaa tacccagaaa actcatttaa cagtaaggtt aatttaattt 1861 caattgaaga acctgaaaca tttatgcatc cacaaatgca ggagttattt ataaaaaata 1921 taaatgaagc gattgcttct ttattgaaaa gtaaaaataa aaacgtaaat agccagttga 1981 taattacaac acactcatca catatactaa atagtaaaat acacagtggt aatactttta 2041 ataatataaa ttacgttact accaaaaata attatactca tgtagtgaat ttgcatgatg 2101 atataattat ccctaaaagt gaaaaaaaag ctcataaaag agagcaggat cttaagttct 2161 taaaaaaaca tattaagtat aaagtttctg agttgttttt ttcagatgct attatttttg 2221 ttgaaggtgt gactgaagaa acgcttctta aatattatat tgatgataat aataagctca 2281 ataaatatta tatatcggtt ttcaatattg atggggctca cggaatggtt tatcacaatt 2341 taattgaaat actacaagta cctgctttga taattacgga tttagatata gaaagagatg 2401 atgatgaaaa gaaaaatttc aagcaaatct ctgatttaac gggaaaattc acaactaata 2461 aaacaattaa aaagtataat gatgactcta atagtttaga ggaattacag catgagcagc 2521 ttaaaataaa taatatgtat attgcatatc aaggtaaaat cgaagaatat tatgcaacaa 2581 gttttgaaga agcatttatc ttaacaaatt acaaaaatga acttttaaat agtgtactaa 2641 aaaaaatgaa acctcagatt tatgaaaata ttatgggtga gggagatgat ttcacaaaga 2701 taaaggaaaa ttcctataaa ctccaaaaaa agttatcaaa tgataaaagt gattttgcga 2761 atgagctact ctataagttt ataacggagg atataacaat tccttctttg ccaaagtata 2821 ttaagagtgg cctttcatgg ttagctaaaa aattagaagg ggaggaataa gggtgagttt 2881 atccaaaata atcccatcta ataagaaaga agagcagaaa tcaataaatg caatttttaa 2941 ttctattgat aaaagtgaag gtatcatttt taattctggt gctggtgctg gaaaaacata 3001 cgctcttatt gaaagtttga aatacataat aagaaactac gagaagagct taaaacaaca 3061 taatcaacaa attatctgta tcacatatac gaatgttgca actaaagaag taaaagagag 3121 attaggaaac acagatttag tattagtttc tacaattcat gaaagaatgt ggggactcat 3181 taaagattat caaaaagaat tagttgagat tcacaaagaa aagttggaag atgaaatctc 3241 aagtttaaaa caaaaattag aaaaaggtca gggatacgaa aaatttcaag aattagaaga 3301 ggacttaaag ggaaatttta aaaaaataat gattgagaat agggaactat tttttcaaaa 3361 ttatagtgct aaagcagcag aggtaaaaaa atcatttaaa atactcttaa acgattaccc 3421 taatatgctg aaaaatgttg gaaattttaa gagaatagta aatgcaattt acaaattaga 3481 tcagtatagt aaatgctatg aaaatataag cttaaataaa cagggttata aatctgtaga 3541 gtacaattcg atttataata acgatcaact ttataaaatg agaataagcc atgatacttt 3601 gttagattat ggtctgaaaa taattaagaa atatgacttg ttaaaacaaa taatcattga 3661 taaatatcca tttattttta ttgatgagta tcaggatacg gatgaaaaag ttatattaat 3721 aatgagttat ttagagcaat atgcaaaaaa aattgatcac aaaattttta taggttattt 3781 tggtgatact gctcaaaata tttatgatga tggagtagga agtgaaataa caaagattca 3841 ctcaggatta aaacagatag ataaagtgtt taatagaaga tctacaaaag aagtcattga 3901 ggttataaac aaaattagaa acgatagcat cgaacaaata tcaatttatg atgattgtga 3961 aggcggtagt gtaaagtttt ataaagggac ttcaggtaat gttaaggact taatagagcg 4021 gtatatatat gaatggaaaa taactacgga aaatcaacta cattgtctag ttttaactaa 4081 taagattgtt gcagaatata gtggttttaa aaacatatac gaagctttca aagagacaga 4141 taaatataaa gggagcaatt ataatcaact taatacggaa ctcttaagta atgatttatc 4201 taagcttggt gaaattccta agttgttatt taatatagtt agattacaga ataatcttgt 4261 ggataaaacg acttcagtta ttgatattac acctaaagaa agcctattcg atgagatgag 4321 tatagaaggg ttaaggaatt taattaaact attaaaacaa taccaaggga aaacattagg 4381 tgaatatata gaatcgatat caactgttta ttctcaagtt aatgatgaaa attataaaaa 4441 aataatagat tggacttttg gttttgaaaa tatcacattc gaactattta aaaatcatct 4501 tatagaaaag ttatttaata atatattaga tgatgatgtt gatcgtgcaa ccgcaactat 4561 acaaaaaata ctagaagttg atattgttga gtatggattg tggtataaat ttattatgga 4621 taaacaagaa gagaaggtta tttatcatac ttatcatggt acaaagggac gagagtttga 4681 taatgttatt attattatgg aaaatgcttt tggaagaaat cacaattatt ttaatttctt 4741 ttttgaaaat ttcttgcatc cagatgtatt agaaggtgaa aagaaactga acttcgagaa 4801 aataaagaat ttgttatatg tttcttgctc tagagctatt aagaatttaa gagttttata 4861 tattgatgat gttaccgatt ttgaaagtga aattaaggaa atgtttggag aagtatatcc 4921 tttttagtaa taattgaatg aagatatttt tcatgaataa aaaaatgttg tgttgatggg 4981 aagcatcata aaaaaacact cttaaccttt ttacaaagaa acaccccact cgttaggctt 5041 aattattaag tttatgtatt attttattat tcaaaacctt atttttgcta ttgattagcc 5101 gctcataata tttaattatg agcggtttta taacatccga gcacaagttt taaaaatgaa 5161 aattcaggac taggtttatt attcaagacg atgattacat atcatttaag gtgcaggaaa 5221 ataattaaag cattataagt aatatcgata tttcagtttg ttaagatttt ctaagggaaa 5281 tttgttcttt tatctagaaa ataattggat tatctaattc atcat.

The coding regions for each of the gajA and gajB gene sequences within this embodiment of a Gabija cassette (SEQ ID NO: 5) are as follows: nucleotides 810-2870 encode an embodiment of a GajA polypeptide, and nucleotides 2873-4927 encode an embodiment of a GajB polypeptide.

In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 5. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 5. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 5. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 5. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 5.

In some embodiments, a Gabija (Defense System VI) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 6; construct 8 of Table 4) 1 ataatagtac tatttaacga tacctgtcaa aaaacataat cgatatttta tcaaaattaa 61 aaaaagaaac cattttattt aacttttctt taaaatggtt tcttggatta tgggacttag 121 ttttttgtct ggaaaatata atgggaattt attgtataat aaaactatgt agaaatacat 181 ggttttttta tttattgagg atgggattct agtgaagggg aacagcttgc ttaactattt 241 ataaaataca gggataagaa cagaattaaa gaaggtatat gttaaaagta aaataattaa 301 gaagataagg tgatgaataa tgaaattcag taatattaca ataaagaact tcaggaattt 361 tgaaaaagta aatataaatt tagataataa aaatgtgatt ttcgggatga atgatattgg 421 aaaaacaaat tttttatatg cattgagatt tcttttagat aaagagataa gaaaattcgg 481 ttttaataaa tctgattatc ataaacatga cacttctaaa aaaattgaaa ttattttaac 541 acttgatttg tctaattatg aaaaggatga agatacaaaa aaacttattt cagtggttaa 601 gggtgctaga acatcggcaa atgcagatgt tttttatatc gcactagaat ctaaatatga 661 tgataaagaa ttatatggga acataatttt aaaatgggga tcggaactag ataatttaat 721 agatatacca gggagaggga acataaacgc gttagataat gtatttaagg tgatttatat 781 aaatccgctt gttgatttag acaaattgtt cgcacaaaat aaaaaatata tttttgaaga 841 gtcacagggt aatgaatcag atgaagggat tttaaataat attaaatctt taacagatca 901 agtaaatcaa caaataggag aaatgacaat tattaagggt ttccagcaag agataacaag 961 tgaatatagg tctttaaaaa aagaagaggt ttctattgag ctgaagtccg aaatggcaat 1021 taaaggattt ttctcagata ttattccata tataaaaaaa gacggtgatt ctaattacta 1081 tccaacctca ggggatggta gaagaaaaat gctttcttac tctatatata actatctggc 1141 taagaaaaaa tatgaggata aaattgttat ttatttaatt gaggaacccg aaattagtct 1201 acatagatca atgcaaattg ctttatcaaa acagttattt gaacaatcta catataaata 1261 ttttttctta tccactcact ctcctgaact tctttatgaa atggataata caagattaat 1321 aagagtgcat tcaactgaaa aggttgtatg ttcttcccat atgtataatg tggaagaagc 1381 ctatggaagt gtcaagaaaa agctaaataa agctttatca tcggctctat ttgctgaaag 1441 agtactttta atagaaggtc cttcagaaaa aatattattt gaaaaggttt tagacgaagt 1501 agaaccagaa tatgaattaa atggaggttt cttgcttgaa gtaggaggga cgtactttaa 1561 tcattatgtg tgtacattaa atgatttagg tataacccat ataattaaaa cagataatga 1621 tttgaaatca aaaaaaggta aaaaaggtgt atacgaatta ctaggattaa atagatgctt 1681 aaacttatta ggacgtgaaa atctagatga gattactatt gacatccctg aagatataaa 1741 aggtaagaag aaaaaagaga gacttaatga aagaaaaaaa gagattttta aacaatataa 1801 aaatgaggta ggggaattct taggggaacg aatatattta tcggaaatcg atctggaaaa 1861 tgatttatat tctgcaattg gtgaaagcat gaaaagaatt tttgaaaacg aagatcccgt 1921 gcactattta cagaaaagta aactatttaa catggtcgag ctagtaaata atttaagtac 1981 taaagattgt tttgatgttt ttgagcacga aaaatttgca tgcctaaagg agttggtggg 2041 tagtgataga ggatgaaatg tctagagaac aaataataaa ggatgggggt aatattcttg 2101 ttaccgctgg agcaggttcg ggtaaaacaa caatattagt tagtaaaatt gaagctgatt 2161 taaaagaaaa taaaactcat tactcaattg cagctgttac ttttacaaat aaggcagcaa 2221 aagaaatcga gggaagatta gggtattcat caagagggaa ttttattggc actaacgatg 2281 gttttgtcga gtctgaaatt attaggccgt ttattaaaga tgcatttgga aatgattatc 2341 cagacaattt cactgctgaa tattttgata accaatttgc ttcatacgat aagggattgc 2401 aagtgctaaa atatcaaaat atattaggga cttatagtaa tcctaaaaag aattttaagt 2461 ttcaattggc tttagatatt ttaaaaaaat cacttgtcgc tagacaatat atattttcaa 2521 aatacttcaa gatatttata gacgagtacc aagattcgga taaggatatg cataatttat 2581 ttatgtattt aaaggatcag cttaaaatta agttatttat tgttggtgac ccaaaacaat 2641 ctatttatat ctggagggga gcagaacctg aaaattttaa tggtcttata gaaaattcta 2701 cggattttaa taaatatcat ttaacttcca actttcgatg ctgtcaggat attcaaaatt 2761 actctaattt atttaatgaa gaaactagaa gcttaattaa agaaaaaaat gaggttcaaa 2821 atgtaatcag tatagcagac gatatgccaa tttcagatat tttattaaaa ttaacagaag 2881 aaaagcaggt attaaacata gaagcggaat tagtgatttt agtccggaga cgtaatcaag 2941 ccattgaaat aatgaaagaa ctaaatgaag aagggtttaa ttttattttt attccccaaa 3001 ccccattaga tagggcaact ccaaatgcaa ctcttttaaa agaggtaatt aaatatgtta 3061 aaaatgatag atattcaata tatgatttag ctgctgaaat tgtaggtaat ctaagttcac 3121 gagaaattaa ggagatacaa aaaataatta atgaattact agtacctaat attaatcagg 3181 tactaattaa tcaggtatta attaatttat ttgctaaatt agaaattact ttagatacta 3241 gagaaattac agcatttaca gaagtaatga tgacgaatga atttgacata gcatttgata 3301 caaatgaata tttacataaa atatttactg tacattctgc aaaaggatta gaatttaatc 3361 aagtcattat tactgcaagt gattacaatg tacactataa tagagatact aacgaacatt 3421 atgttgctac aactagagca aaagataaat taattgtcat tatggataat aagaagtact 3481 cagattatat tgagacgcta atgaaagaac ttaaaattaa aaatattatt aagtcaatat 3541 aaggaaactt aagtttgaca taataacgat gaaatataaa agtttgtttt cgtaaatagc 3601 caatgtcact aagttatcaa gacttaaatt ttaaaacctt taaaaataaa gactctaaca 3661 tattagtcat aattaatatg ttagggtctt ttgttttatt tgaaatgtta ttttcaactt 3721 tataagacaa tgaatattat ttttgtttaa taatatccag agtgctcaaa ataaatatca 3781 gaaggtaatt cctaataata ttgcgtgtgt agttaatagt taaaataata aaataaaaaa 3841 agatggtata atttagtata ccatcttttt ttattttatt aggaggttca aaa.

The coding regions for each of the gajA and gajB gene sequences within this embodiment of a Gabija cassette (SEQ ID NO: 6) are as follows: nucleotides 320-2056 encode an embodiment of a GajA polypeptide, and nucleotides 2058-3542 encode an embodiment of a GajB polypeptide.

In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 6. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 6. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 6. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 6. In some embodiments, a Defense System VI comprising a GajA polypeptide and a GajB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 6.

In some embodiments, a construct comprising the Gabija defense system encodes one component of the defense system, whereby multiple constructs, for example but not limited to, two constructs may be used to assemble the functional defense system. In some embodiments, the components of a Gabija defense system comprise genes gajA and gajB. In some embodiments, the components of a Gabija defense system consist of genes gajA and gajB. In some embodiments, the components of a Gabija defense system comprise nucleic acid sequences encoding a GajA polypeptide and a GajB polypeptide. In some embodiments, the components of a Gabija defense system consist of nucleic acid sequences encoding a GajA polypeptide and a GajB polypeptide.

In some embodiments, a construct comprising the Gabija defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Gabija defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of GajA and GajB may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Gabija defense system.

In some embodiments, the components making up a functional Gabija anti-phage defense system comprise a GajA polypeptide and a GajB polypeptide, each encoded by a gajA and a gajB gene, respectively. In some embodiments, a gajA gene encodes a polypeptide comprising an ATPase activity. In some embodiments, a gajB gene encodes a polypeptide comprising a helicase activity.

In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid encoding a GajA polypeptide. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid encoding a GajA polypeptide and a GajB polypeptide. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid encoding a GajB polypeptide.

In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid comprising a gajA gene. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid comprising a gajA gene and a gajB gene. In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid comprising gajB gene.

In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is GajA and GajB. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of nucleic acid sequences encoding GajA and GajB.

In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is gajA and gajB. In some embodiment, the 5′ to 3′ order of genes in a Gabija defense system is not gajA and gajB. In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of gajA and gajB.

In some embodiments, the Gabija system (Defense System VI) composition and order is as shown in FIG. 3B.

In some embodiments, a Gabija defense system having an anti-phage activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 14). A skilled artisan would appreciate that the Gabija system is not present in the majority of bacteria and or archaea species.

In some embodiments, a functional Gabija defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. For example, the source of the nucleic acid sequence encoding a GajA polypeptide may be one microbial species, while the source of the nucleic acid sequence encoding a GajB polypeptide may be a different microbial species. In some embodiments, a functional Gabija defense system comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Gabija defense system comprises a combination of at least two polypeptides that do not naturally occur together.

In some embodiments, a functional Gabija defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a GajA polypeptide may be one bacterial species, while the source of the nucleic acid sequence encoding a GajB polypeptide may be a different bacterial species.

In some embodiments, the source of the nucleic acid encoding a GajA polypeptide and a GajB polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a GajA polypeptide and a GajB polypeptide is the not the same. In some embodiments, the source of the nucleic acid sequence of any of the components of a Gabija defense system comprises any of the species listed in Table 14.

In some embodiments, a Gabija defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Gabija system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. According to some embodiments, the Gabija system components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Gabija system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Gabija defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Gabija defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 14. According to some embodiments a prokaryotic cell expresses a non-endogenous Gabija defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Gabija defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Gabija defense system is selected from the group consisting of the species listed in Table 14.

In some embodiments, Gabija defense system components comprise GajA and GajB polypeptides. In some embodiments, Gabija defense system components comprise functional portions of GajA and GajB polypeptides. In some embodiments, the Gabija defense system functional components are encoded by gajA and gajB genes.

Non-limiting embodiments of endogenous Gabija systems and the respective location of their components are provided in Table 14 herein.

In some embodiments, the components of a Gabija system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, the term “GajA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the gajA gene. In some embodiments, the term “GajA” refers to a GajA polypeptide. In some embodiments, the gajA gene encodes a polypeptide comprising a pfam13175 domain. In some embodiments, the gajA gene encodes a polypeptide comprising a COG3593 domain. In some embodiments, the gajA gene encodes a polypeptide comprising a pfam13175 domain and a COG3593 domain. In some embodiments, the GajA polypeptide comprises a pfam13175 domain. In some embodiments, the GajA polypeptide comprises a COG3593 domain. In some embodiments, the GajA polypeptide comprises a pfam13175 domain and a COG3593 domain.

In some embodiments, GajA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a GajB polypeptide in a genome of a prokaryotic cell. In some embodiments, GajA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a GajB polypeptide in a genome of a prokaryotic cell. In some embodiments, GajA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a GajB polypeptide in a genome of a prokaryotic cell.

In some embodiments, GajA and GajB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, GajA and GajB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, gajA and gajB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, gajA and gajB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a GajA polypeptide is about 670 amino acids long (median gene size).

In some embodiments, the GajA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I. In some embodiments, the GajA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, column H. In some embodiments, the GajA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 14, rows 2-4599, columns H and I.

In some embodiments, a GajA polypeptide homolog comprises an ATPase domain. In some embodiments, a GajA polypeptide homolog comprises an ATPase activity. In some embodiments, a GajA polypeptide homolog comprises an ATP-dependent endonuclease domain. In some embodiments, a GajA polypeptide homolog comprises an ATP-dependent endonuclease activity.

In some embodiments, the GajA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I. In some embodiments, the GajA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I.

In some embodiments, the GajA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I. In some embodiments, the GajA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I. In some embodiments, the GajA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I. In some embodiments, the GajA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I. In some embodiments, the GajA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns H and I.

In some embodiments, the GajA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the GajA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the GajA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the GajA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the GajA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J.

In some embodiments, the nucleic acid sequence of a gajA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the gajA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the nucleic acid sequence of a gajA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the gajA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J. In some embodiments, the nucleic acid sequence of a gajA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns H and J.

As used herein, the term “GajB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the gajB gene. In some embodiments, the term “GajB” refers to a GajB polypeptide. In some embodiments, the product of the gajB gene comprises a pfam04257 domain. In some embodiments, the gajB gene encodes a pfam00580 domain. In some embodiments, the gajB gene encodes a pfam13361 domain. In some embodiments, the product of the gajB gene comprises a pfam04257 domain or a pfam00580 domain or a pfam13361 domain, or any combination thereof. In some embodiments, the product of the gajB gene comprises a pfam04257 domain, a pfam00580 domain, and a pfam13361 domain. In some embodiments, the gajB gene encodes a helicase. In some embodiments, the gajB gene encodes a UvrD helicase.

In some embodiments, GajB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a GajA polypeptide in a genome of a prokaryotic cell. In some embodiments, GajB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a GajA polypeptide in a genome of a prokaryotic cell. In some embodiments, GajB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a GajA polypeptide in a genome of a prokaryotic cell.

In some embodiments, a GajB polypeptide is about 598 amino acids long (median gene size).

In some embodiments, the GajB polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M. In some embodiments, the GajB polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M. In some embodiments, the GajB polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 14, rows 2-4599, columns L and M.

In some embodiments, a GajB polypeptide homolog comprises a UvrD helicase domain. In some embodiments, a GajB polypeptide homolog comprises a UvrD helicase activity.

In some embodiments, the GajB polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M. In some embodiments, the GajB polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M.

In some embodiments, the GajB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M. In some embodiments, the GajB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M. In some embodiments, the GajB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M. In some embodiments, the GajB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M. In some embodiments, the GajB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 14, rows 2-4599, columns L and M.

In some embodiments, the GajB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the GajB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the GajB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the GajB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the GajB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N.

In some embodiments, the nucleic acid sequence of a gajB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the gajB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the nucleic acid sequence of a gajB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the gajB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N. In some embodiments, the nucleic acid sequence of a gajB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 14, rows 2-4599, columns L and N.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System VI component” or “functional fragment of Defense System VI component” or “functional portion of a Gabija defense system component” or “functional fragment of Gabija defense system component” refers to a functional portion of a Gabija polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Gabija polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “GajA”, “GajB”, “gajA” and “gajB”, also refer to functional GajA, GajB, gajA and gajB, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences references in Table 14 rows 2-4599 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polynucleotide sequences references in Table 14 rows 2-4599 columns H and J and L and N, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within similar domain regions of the polypeptide sequences references in Table 14 rows 2-4599 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity or homology within nucleotide sequences encoding similar domain regions to the polynucleotide sequences references in Table 14 rows 2-4599 columns H and J and L and N, respectively.

Table 14 presents embodiments of components of Defense System VI that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 14 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System VI (referenced in Table 18).

The Septu Defense System

In some embodiments, a defense system disclosed herein comprises a Septu anti-phage defense system (Table 15).

In some embodiments, a Septu defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Septu defense system (Defense System VII) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Septu defense system provides a host cell with resistance to at least one phage.

In some embodiments, a microbial cell comprising a Septu defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a Septu defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a functional Septu defense system protects the microbial cell from phage infection. In some embodiments, a bacterial cell comprising a Septu defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a Septu defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a functional Septu defense system protects the bacterial cell from phage infection.

In some embodiments, a Septu defense system provides a host cell with resistance to plasmid transformation. In some embodiments, a Septu defense system (Defense System VII) provides a host cell with resistance to plasmid transformation. In some embodiments, a host cell expressing a functional Septu defense system (Defense System VII) provides a host cells with resistance to plasmid transformation.

In some embodiments, a Septu defense system (Defense system VII) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Septu defense system (Defense System VII) provides the host cell resistance from entry of conjugative elements.

As used herein, the term “a Septu anti-phage defense system” may be used interchangeably with the term “a Defense System VII”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Septu system” may be used interchangeably in some embodiments with “Septu defense system”, “Septu the defense system”, “Septu anti-phage system”, and “Defense System VII”, having all the same meanings and qualities.

In some embodiments, a microbial species does not comprise an endogenous Defense System VII. In some embodiments, a microbial species does not express an endogenous Defense System VII. In some embodiments, a microbial species does not express an endogenous functional Defense System VII.

In some embodiments, a bacterial species does not comprise an endogenous Defense System VII. In some embodiments, a bacterial species does not express an endogenous Defense System VII. In some embodiments, a bacterial species does not express an endogenous functional Defense System VII.

A Septu defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, and a PtuB polypeptide comprising pfam13395 domain or a pfam01844 domain or a combination thereof. In some embodiments, a Septu defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a ptuA gene and a ptuB gene.

In some embodiments, a Septu defense system comprises, a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, and a PtuB polypeptide comprising pfam13395 domain or a pfam01844 domain or a combination thereof. In some embodiments, a Septu defense system comprising anti-phage activity comprises a PtuA polypeptide and a PtuB polypeptide.

In some embodiments, a Defense System VII comprises a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-12507 columns H and I; or a PtuB polypeptide comprising pfam13395 domain or a pfam 01844 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-2507 columns L and M; or combination thereof.

In some embodiments, a Defense System VII comprises at least two different polypeptides selected from a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-12507 columns H and I; and a PtuB polypeptide comprising pfam13395 domain or a pfam 01844 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-2507 columns L and M.

In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide and a PtuB polypeptide. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain) or a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) or an N-terminal HNH nuclease domain, or any combination thereof, and a PtuB polypeptide comprising a HNH endonuclease activity.

In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain). In some embodiments a PtuA polypeptide comprises a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, a PtuA polypeptide comprises an N-terminal HNH nuclease domain. In some embodiments, a PtuA polypeptide comprises an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) and an N-terminal HNH nuclease domain. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuB polypeptide comprising a HNH endonuclease. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) and an N-terminal HNH nuclease domain, and a PtuB polypeptide comprising a HNH endonuclease. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins), and a PtuB polypeptide comprising a HNH endonuclease.

In some embodiments, the Septu anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising ptuA and ptuB genes.

In some embodiments, a Septu (Defense System VII) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 12; Table 4 construct 42) 1 gggaatgcaa aaaggaggcg ggacttgagt gcgagttctg cctctttttt gctgaattta 61 gaaatctttt aagttttatc taaaaaagca ttcactttat tgttatttat gtagtaagag 121 taaaatttta ttaaaaattc taaagctgta ttggtttata agctagtgct atatctacta 181 tttgttctgg agtaagatct tcatcattaa aagaaaggca ttattatttt tggtgaatgt 241 tatttagtat aaaccatagg ggaatggaat attttatgat aaaattgagt ggagtaaata 301 attgtaaaga taaataaacg gatagcatgt aaaaaaaggg ttgaccttga gccttattaa 361 gacgggtgtt gtagtaataa atgaattaag agaaaaacat ttgtaattag tcaacaaaaa 421 gggagttgct tgaatgttag ttataaaaga attaaaaatt gatgggattg gcggtattaa 481 tagccttaaa cttaatttta acgaggggtt aaatttgatt tgcggtccaa atggtgtagg 541 gaaaaccaca attcttgaaa gtattggcca tatgtttagt aatggtagtc gtagtaaggt 601 taagagaaat gttaaatttg atcaggggag ttgtgaaatt agctattcaa cattcctaga 661 tactatacat acacagtcat gtattttaag gaattatgaa gaaaatgatt cgctggattg 721 gcatggtgga aatgcaaatt tggctaaaga ggtcattgtc ttcaaagctc aaagatcatt 781 cacttatacg caattagatt ctcttcgtaa agatacggaa acaagtgatg gtaaatttct 841 ggatgattct atgaatggaa ttcaattttt cgactttaag aattggttta tccatcgttt 901 tttatttagt catgtagata atgaattaac aacagtacaa aaagagaatt ttaaacttgc 961 gacagattgt tttggtattt tagataatag cattcgtttt agtagtgtta aaagtgatac 1021 attcgatata attataagta cctcaaatgg tgaaatctat tttgagtatc tatcatcagg 1081 attcaaatca tgtatctata ttattcatgg gttaattaaa gaaatagagt atcgttttaa 1141 aaacgatggt ggtattaaag ttcaagatta tgaagggcta atactaatcg atgagttgga 1201 ccttcattta catccacagt ggcaagcgaa aatgatttat ttaataaagc atatattacc 1261 taaagctcaa attattgcaa caacacatag tcctcatatg gtacaagctg cagcaattaa 1321 tgaacttata gctttaggaa tcgatgaaga tgcggatgta tatgtaagac aactacctaa 1381 tgttcaatat ggatttcagg gatggactgt tgaggaaata ttggaagacg ttatggggtt 1441 agatgaaaca cggtctccaa tgtacataga ggctataact gaatttgaaa aatctctaga 1501 tgaagaaaat gaggagaaga tatttgaagc ttattataag ttagatttaa tgctacaccc 1561 aagtaatcca cttcgcaagt tgttaaagtt acaagtagct caattcggga gggttataga 1621 gtgattcatt taaaacgccc taatagtcct agtaaactta taaatgaaga agcaaaacta 1681 actcaagaat ttcttcaaaa tggtaatagt gtttggggaa agccttatat taagcttgct 1741 cttctagaga tgtcaaataa caaatgtgta tactgtgaat gtagactaga tgaagagagt 1801 aagtatatgg aggtagagca ctttctacca aaagatactt atcctaatct agttgtcaat 1861 tggagaaatt tattaccaag ttgtaaaaga tgtaatggaa aaaaagggac acatgattca 1921 aaaaaagaac ctattatcaa tcctactgtt gatactccaa gtaatcatat aaaaatgttt 1981 aactattgcc taaagggaaa agatttaaaa gggaaaacaa cagttgatgt attgcaccta 2041 aaccaacttg atagattagt atacccaaga atgttaattg gaacaaaaac tatagaaaca 2101 gtagaaaaac ttttagaaat ggcagagaac tttaatttga atattaatgc tactgggcgt 2161 atcaaaagtc gtattataca tggcactaca cagttgctca tagaagctca accgcattcc 2221 gaatattctg cgacagttgc ctcggtttta tttaacaatg aagattttgt taagttaaaa 2281 gagattatga ttaagtgcac aatctggaat acagaacatc aaaagttact gtctaatgca 2341 gaaagaaata ttttggtaga gccactttac aattgcctca ataataagaa ttaatgattc 2401 taacgtatac tctagctgaa agtatatagt tagtgtattc cttggggtag cttcaaccta 2461 tttgatatta gatgtagaat tagagttaca attgatgtga aagtaagtgt caatggttca 2521 caaattataa agtacacaac agtaaaggta agccatacta tgtaacagca aatgaggtct 2581 atgtatatgg gaagtaaaaa aagcggtctg ctcaaattat gagtagaccg cttttttact 2641 taagtatgct atttatcact tcataaatat aaaattacat atcaattact tttttacgac 2701 tttaccggca acacctgttt accgaattag ttgatgaaga ctcatcaatt aattcaatgc 2761 ttttatttgc aatatattgc ctcgcgttct tattaaaatc aatcagtgta gagaaaagaa 2821 gctggaagag ttagagggga tatatgatgt gtttgtgaag ggatatataa tagaggaaat 2881 ataaaaagtg ctaacaagtt tgcaaacgaa cttgctaaca cctatacaga atagacataa 2941 aatatcgctg atatgtcatc tttgaaatag ctttaatcag ttaaatcaca cttatacgaa 3001 atgcttatag taacagtctt aatatcaaga atataatcat ccagatattc ctttactttt 3061 cagacgaaaa cgagggatga tat.

The coding regions for each of the ptuA and ptuB gene sequences within this embodiment of a Septu cassette (SEQ ID NO: 12) are as follows: nucleotides 434-1624 encode an embodiment of a PtuA polypeptide, and nucleotides 1621-2394 encode an embodiment of a PtuB polypeptide.

In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 12. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 12. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 12. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 12. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 12.

In some embodiments, a Septu (Defense System VII) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 13; construct 43 of Table 4) 1 ggctttttaa gtgtacattt ttattgaaga ttggatagaa ttcaacaaga tgaatttgat 61 gtttattaaa cataagatgg aaaggctatg tgttaaataa aaagatgaaa taattaccat 121 tagtgtataa aataataagt aactagtttg gtaatgattt taaggatatg aagtatatta 181 accgtgacat attatagttg aaattcagtt ttatatcatg tgaaaatatg cttttgagga 241 gggtaaagat atgattcgaa tacataaaga taaatatttt gattcaatat atgatgaatt 301 gttagaacaa gcaactcaag aaaagtatat ggatgagtat ttactagaaa agtttatgaa 361 aagatacttt aatggtaaat gttcatactg tgaaattcga atgaaagagt tacgactaac 421 aattgacttt tatagaccta taaatggatc gttaaacacg atggatggtg aatttcatcc 481 tgatcattat aaatggttaa aaaatgaaga tgataatata ctttcaattt gtgtagaatg 541 taagcgagcg aaaagtaatc gttttccagt agatggcgat gtcgcttcta ttaatgctga 601 taagaataaa ttagtgaaag aaagacgttt attgatacat ccttgtagag attatcctga 661 aaggcatttt gattacgatg aaagtggaat ggtttattat aaaagtaaaa aaggcgaggt 721 tactgtagat gttttaaatt tgaatcgcgg tatgttggta gaaatgcgtg cccaagtata 781 tagtgaattt aataatcttt gttatttatt ctcaatggag caaagtccct actatttaaa 841 gcaaattcta caagaagttc agttggattc aatatttatt ggtttaaaaa agtttatact 901 ttctgaatgg gtaatcttaa atgagaaaat tccatttctt caagaatttg agccattatt 961 aggtaagaga ttgcaggaag aagaagtgag agttttatca gttagaaata ataagattag 1021 tcaaattgat attgataata atatccttta tgttgataat gataagcgga gaaagcgtgt 1081 tcctgcaagg aaaattaatg attattacga tgtatccgac gagaacgctt tagaaaaata 1141 ttatggaaaa cagcgtttta ttgaaaaaat tgaaatttat aactttaaaa gtattagaaa 1201 tatgaaaatt gattttactc tcagtaaaag cagtaatgct ccttggctaa tgttattagg 1261 agaaaatggt gtgggcaaaa gctcaatttt acaagcaatt gcattaacac taatgggaaa 1321 cgaacaacgg caaaaaatta taaaaaagaa accttatgaa tatttaacaa aaggctttga 1381 tgaaggttct ataaagataa aattatcagg catgcaagag cctattagta tttatttaaa 1441 ttcgaattca tttgaattta caggtgaaaa tcatcaaagg cctagggttc taattttagg 1501 ttatggctca acgcgattac ttcctagaga agaaatgtta tcaaattata aggtgacttg 1561 ggcaagaata gaaaatctat ttaatccttt tattccatta gttaatgtaa gagagtatct 1621 cttatcttta aataatgaag attttaataa tgttaaaaaa gctattgagt ccttattttt 1681 agatgaagta ataattgatc gggatcagat atatgaagaa gtatattttg gatttgcgaa 1741 ttcttacagt aaactagaag atttaagtga tggctatcag acaattattg ctctggctac 1801 tgatattatg atggttatga agaatagatg gcgaaatttt gatgctgaag gaattgtttt 1861 aatagatgaa attgatgcac atcttcatcc aaggtggaat atagaaattg tttctcgatt 1921 aaaaaatgct tttccgaaaa ttcaatttat tgcaactacc cataacccgc tatcacttcg 1981 tggtttaata gatggagaag ttgcagtatt actagaaaat gaggaaagag aagcgtatat 2041 tactcaaaag ttaccttctc aaaaaggatt taatgtagaa ggattattaa cttctaaatt 2101 ttttggattg tatgacacca tgccagattt aaatgaatta tttgatcgat attatttact 2161 tttatctaat cctagtccta atgaaaggca aaaggaagaa ataaaaaatt tacaagataa 2221 attgtcaaaa tatgaaaaag taggtaccac attaagagaa caaaaattct atgaagcagt 2281 ggattactat tttgcacagt acagaaaaaa taatgtggaa ttaagtgatg aagagtttaa 2341 caatattata gaagatgcta ttaaatattt tgaaaggtaa gattttttat gataaaagtt 2401 caaagagaag cagaaccagc tgtattaaat ctaactgact cagattctat tggttttaaa 2461 gaattggaag cggcaaaaaa aactactttt acaaaagata cgaaatttcc gttcgaggca 2521 tataaggatg aaagtgtaaa aaatctttta aaaaaaatgt ttaatggtaa atgtggatat 2581 tgtgaaagta ttattaatgt gacttcgtat gaagaaattg aacattttag acctaaaaaa 2641 gctattaata tagaaggtat acaaggattg acttatcctg gttactattg gttggctatg 2701 agttggaata atttgttgat ttcttgtcaa aggtgcaata ggtcgcataa aaaaaattat 2761 tttccaatag aaaacgaaag taatcgtgca aaagctcccg gtgaagaaag tggagaggag 2821 gtattactat taaacccttg tgaagatgac ccgagtgaac atttggaatt taaggataca 2881 ggtattattg aatttaaaga gggatctaaa aagggagaaa aatctataaa agtttatgct 2941 cttcatagga gagaacttac tgaagaaaga gcgaaagttg ctaaggatat tgagctgaag 3001 aaagtacaaa tacttgacgg attaagtact ctaaaggtgc ttttacgcta tcaagaagat 3061 agtgatcttc aaaaagagat tgaaaaaact gtatcaaata taatatcatt atatgatttt 3121 atatttgaat atgaaaatga tcctaacagg ccttatcagg caatggtaac tcagattact 3181 tcggattttc tgagtgaacg taaagaatta atcaataaat tgaagacaac atccaatcgg 3241 aaaaattcct gtgaacaaag tcatatttca agttaagtta atttaggata agagctataa 3301 aaaagctctt atcctattta ttatgaagtt tagcgagata gtaaaagtaa cataattaat 3361 atttaaaaaa ttattttttc ttgagtaacg gtattaactc tgctacattt aatatttttt 3421 gtctttataa aatgccttat gtcaattata aaaaaatcat gatgctttct aatttagtcc 3481 tagcgtcttc tttaaattaa gatactataa atatgaggtc cctcaatgct gttgtttata 3541 aagtattttt gctaactgga ttactttgtt gttacgttca tctgacttag tgttccagct 3601 ccacctaact caattaatat ttctatgttt atcatcagtc tatcttttta aaattagtat 3661 atctaaattt ttgcaatgga agcaattggt tttatataat tgtagaagga tttaccaatg 3721 gacaatagcg ggaggattca aaaaa.

The coding regions for each of the ptuA and ptuB gene sequences within this embodiment of a Septu cassette (SEQ ID NO: 13) are as follows: nucleotides 251-2380 encode an embodiment of a PtuA polypeptide, and nucleotides 2389-3276 encode an embodiment of a PtuB polypeptide.

In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 13. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 13. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 13. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 13. In some embodiments, a Defense System VII comprising a PtuA polypeptide and a PtuB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 13.

In some embodiments, a construct comprising the Septu defense system encodes one component of the defense system, whereby multiple constructs, for example but not limited to, two constructs may be used to assemble the functional defense system. In some embodiments, the components of a Septu defense system comprise genes ptuA and ptuB. In some embodiments, the components of a Septu defense system consist of genes ptuA and ptuB. In some embodiments, the components of a Septu defense system comprise nucleic acid sequences encoding a PtuA polypeptide and a PtuB polypeptide. In some embodiments, the components of a Septu defense system consist of nucleic acid sequences encoding a PtuA polypeptide and a PtuB polypeptide.

In some embodiments, a construct comprising the Septu defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Septu defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of PtuA and PtuB may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Septu defense system.

In some embodiments, the components making up a functional Septu anti-phage defense system comprise a PtuA polypeptide and a PtuB polypeptide, each encoded by a ptuA and a ptuB gene, respectively. In some embodiments, a ptuA gene encodes a polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain). In some embodiments, a ptuA gene encodes a polypeptide comprising a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, a ptuA gene encodes a polypeptide comprising an N-terminal HNH nuclease domain. In some embodiments, a ptuA gene encodes a polypeptide comprising a AAA domain (“ATPases Associated with diverse cellular Activities” domain) or a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) or an N-terminal HNH nuclease domain, or any combination thereof. In some embodiments, a ptuA gene encodes a polypeptide comprising a AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, a ptuA gene encodes a polypeptide comprising a AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) and an N-terminal HNH nuclease domain.

In some embodiments, a ptuB gene encodes a polypeptide comprising a HNH endonuclease.

In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid encoding a PtuA polypeptide. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid encoding a PtuA polypeptide and a PtuB polypeptide. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid encoding a PtuB polypeptide.

In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid comprising a ptuA gene. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid comprising a ptuA gene and a ptuB gene. In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid comprising ptuB gene.

In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is PtuA and PtuB. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of nucleic acid sequences encoding PtuA and PtuB.

In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is ptuA and ptuB. In some embodiment, the 5′ to 3′ order of genes in a Septu defense system is not ptuA and ptuB. In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of ptuA and ptuB.

In some embodiments, the Septu system (Defense System VII) composition and order is as shown in FIG. 3B.

In some embodiments, a Septu defense system having an anti-phage activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 15). A skilled artisan would appreciate that the Septu system is not present in the majority of bacteria and or archaea species.

In some embodiments, a functional Septu defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. For example, the source of the nucleic acid sequence encoding a PtuA polypeptide may be one microbial species, while the source of the nucleic acid sequence encoding a PtuB polypeptide may be a different microbial species. In some embodiments, a functional Septu defense system comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Septu defense system comprises a combination of at least two polypeptides that do not naturally occur together.

In some embodiments, a functional Septu defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding PtuA polypeptide may be one bacterial species, while the source of the nucleic acid sequence encoding a PtuB polypeptide may be a different bacterial species.

In some embodiments, the source of the nucleic acid encoding a PtuA polypeptide and a PtuB polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a PtuA polypeptide and a PtuB polypeptide is the not the same. In some embodiments, the source of the nucleic acid sequence of any of the components of a Septu defense system comprises any of the species listed in Table 15.

In some embodiments, a Septu defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Septu system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. According to some embodiments, the Septu system components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Septu system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Septu defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Septu defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 15. According to some embodiments a prokaryotic cell expresses a non-endogenous Septu defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Septu defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Septu defense system is selected from the group consisting of the species listed in Table 15.

In some embodiments, Septu defense system components comprise PtuA and PtuB polypeptides. In some embodiments, Septu defense system components comprise functional portions of PtuA and PtuB polypeptides. In some embodiments, the Septu defense system functional components are encoded by ptuA and ptuB genes.

Non-limiting embodiments of endogenous Septu systems and the respective location of their components are provided in Table 15 herein.

In some embodiments, the components of a Septu system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, the term “PtuA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the ptuA gene. In some embodiments, the term “PtuA” refers to a PtuA polypeptide. In some embodiments, the ptuA gene encodes a polypeptide comprising a pfam13304 domain. In some embodiments, the ptuA gene encodes a polypeptide comprising a pfam02463 domain. In some embodiments, the ptuA gene encodes a polypeptide comprising a pfam13304 domain and a pfam02463 domain. In some embodiments, the PtuA polypeptide comprises a pfam13304 domain. In some embodiments, the PtuA polypeptide comprises a pfam02463 domain. In some embodiments, the PtuA polypeptide comprises a pfam13304 domain and a pfam02463 domain.

In some embodiments, PtuA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a PtuB polypeptide in a genome of a prokaryotic cell. In some embodiments, PtuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a PtuB polypeptide in a genome of a prokaryotic cell. In some embodiments, PtuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a PtuB polypeptide in a genome of a prokaryotic cell.

In some embodiments, PtuA and PtuB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, PtuA and PtuB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, ptuA and ptuB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, ptuA and ptuB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

As used herein, the term “PtuA” refers to the polynucleotide or expression product e.g., polypeptide encoded by the ptuA gene. In some embodiments, the term “PtuA” refers to a PtuA polypeptide. In some embodiments, the product of the ptuA gene comprises a pfam13304 domain. In some embodiments, the ptuA gene encodes a pfam02463 domain. In some embodiments, the product of the ptuA gene comprises a pfam13304 domain or a pfam02463 domain, or any combination thereof. In some embodiments, the product of the ptuA gene comprises a pfam13304 domain and a pfam02463 domain. In some embodiments, the ptuA gene encodes a AAA domain. In some embodiments, the ptuA gene encodes a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, the ptuA gene encodes an N-terminal HNH nuclease domain. In some embodiments, the ptuA gene encodes a AAA domain, or a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins), or an N-terminal HNH nuclease domain, or any combination thereof. In some embodiments, the ptuA gene encodes a AAA domain and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) and an N-terminal HNH nuclease domain. In some embodiments, the ptuA gene encodes a AAA domain and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, the ptuA gene encodes a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) and an N-terminal HNH nuclease domain.

In some embodiments, PtuA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a PtuB polypeptide in a genome of a prokaryotic cell. In some embodiments, PtuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a PtuB polypeptide in a genome of a prokaryotic cell. In some embodiments, PtuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a PtuB polypeptide in a genome of a prokaryotic cell.

In some embodiments, a PtuA polypeptide is about 452 amino acids long (median gene size).

In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80% homology to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, a PtuA polypeptide homologue comprises an AAA domain (“ATPases Associated with diverse cellular Activities” domain). In some embodiments, a PtuA polypeptide homologue comprises a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, a PtuA polypeptide homologue comprises an N-terminal HNH nuclease domain. In some embodiments, a PtuA polypeptide homologue comprises an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, a PtuA polypeptide homologue comprises an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) and an HNH nuclease domain. In some embodiments, the PtuA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 15, rows 2-2507, columns H and I.

In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80% homology to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80% identity to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I.

In some embodiments, the PtuA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95%, homology to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 90%, at least 95% identity to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I. In some embodiments, the PtuA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns H and I.

In some embodiments, the PtuA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J. In some embodiments, the PtuA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95%, homology to similar domain regions in a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J. In some embodiments, the PtuA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J. In some embodiments, the PtuA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95%, homology to similar domain regions in a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J. In some embodiments, the PtuA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J.

In some embodiments, the nucleic acid sequence of a ptuA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J. In some embodiments, the nucleic acid sequence of a ptuA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within regions encoding similar domain sequences to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J.

In some embodiments, the nucleic acid sequence of a ptuA gene encodes a polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain). In some embodiments, the nucleic acid sequence of a ptuA gene encodes a polypeptide comprising a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, the nucleic acid sequence of a ptuA gene encodes a polypeptide comprising an HNH nuclease domain. In some embodiments, the nucleic acid sequence of a ptuA gene encodes a polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins). In some embodiments, the nucleic acid sequence of a ptuA gene encodes a polypeptide comprising an AAA domain (“ATPases Associated with diverse cellular Activities” domain) and a RecF/RecN/SMC N-terminal domain (a domain found at the N terminus of structural maintenance of chromosomes (SMC) proteins) and an HNH nuclease domain. In some embodiments, the nucleic acid sequence of a ptuA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J. In some embodiments, the nucleic acid sequence of a ptuA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity within regions encoding similar domain sequences to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J. In some embodiments, the nucleic acid sequence of a ptuA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns H and J.

As used herein, the term “PtuB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the ptuB gene. In some embodiments, the term “PtuB” refers to a PtuB polypeptide. In some embodiments, the product of the ptuB gene comprises a pfam13395 domain. In some embodiments, the ptuB gene encodes a pfam01844 domain. In some embodiments, the product of the ptuB gene comprises a pfam13395 domain or a pfam01844 domain, or any combination thereof. In some embodiments, the product of the ptuB gene comprises a pfam13395 domain and a pfam01844 domain. In some embodiments, the ptuB gene encodes a HNH endonuclease.

In some embodiments, PtuB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a PtuA polypeptide in a genome of a prokaryotic cell. In some embodiments, PtuB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a PtuA polypeptide in a genome of a prokaryotic cell. In some embodiments, PtuB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a PtuA polypeptide in a genome of a prokaryotic cell.

In some embodiments, a PtuB polypeptide is about 219 amino acids long (median gene size).

In some embodiments, the PtuB polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M. In some embodiments, the PtuB polypeptide comprises the amino acid sequence having at least 80% homology to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M. In some embodiments, a homologue of the PtuB polypeptide comprises an HNH endonuclease. In some embodiments, the PtuB polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M. In some embodiments, the PtuB polypeptide comprises the amino acid sequence having at least 80% identity to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M.

In some embodiments, the PtuB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M. In some embodiments, the PtuB polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95%, homology to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M. In some embodiments, the PtuB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M. In some embodiments, the PtuB polypeptide comprises the amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95%, identity to similar domain regions in a sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M. In some embodiments, the PtuB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 15, rows 2-2507, columns L and M.

In some embodiments, the PtuB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the PtuB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95%, homology to similar domain regions in a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the PtuB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the PtuB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95%, identity to similar domain regions in a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the PtuB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N.

In some embodiments, the nucleic acid sequence of a ptuB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the nucleic acid sequence of a ptuB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the nucleic acid sequence of a ptuB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology within the nucleotide sequence encoding similar domain regions to regions with a sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the nucleic acid sequence of a ptuB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence encoding similar domain regions selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N. In some embodiments, the ptuB gene homolog encodes a polypeptide comprising a HNH endonuclease. In some embodiments, the nucleic acid sequence of a ptuB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 15, rows 2-2507, columns L and N.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System VII component” or “functional fragment of Defense System VII component” or “functional portion of a Septu defense system component” or “functional fragment of Septu defense system component” refers to a functional portion of a Septu polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Septu polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “PtuA”, “PtuB”, “ptuA” and “ptuB”, also refer to functional PtuA, PtuB, ptuA and ptuB, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences referenced in Table 15 rows 2-2507 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polynucleotide sequences referenced in Table 15 rows 2-2507 columns H and J and L and N, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within similar domain regions of the polypeptide sequences referenced in Table 15 rows 2-2507 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity or homology within nucleotide sequences encoding similar domain regions to the polynucleotide sequences referenced in Table 15 rows 2-2507 columns H and J and L and N, respectively.

Table 15 presents embodiments of components of Defense System VII that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 15 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System VII (referenced in Table 18).

The Lamassu Defense System

In some embodiments, a defense system disclosed herein comprises a Lamassu anti-phage defense system. (Table 16)

In some embodiments, a Lamassu defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Lamassu defense system (Defense System VIII) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Lamassu defense system provides a host cell with resistance to at least one phage.

In some embodiments, a microbial cell comprising a Lamassu defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a Lamassu defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a functional Lamassu defense system protects the microbial cell from phage infection. In some embodiments, a bacterial cell comprising a Lamassu defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a Lamassu defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a functional Lamassu defense system protects the bacterial cell from phage infection.

In some embodiments, a Lamassu defense system provides a host cell with resistance to a plasmid.

As used herein, the term “a Lamassu anti-phage defense system” may be used interchangeably with the term “a Defense System VII”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Lamassu system” may be used interchangeably in some embodiments with “Lamassu defense system”, “Lamassu the defense system”, “Lamassu anti-phage system”, and “Defense System VIII”, having all the same meanings and qualities.

In some embodiments, a Lamassu defense system (Defense System VIII) provides a host cell with resistance to plasmid transformation. In some embodiments, a host cell expressing a functional Lamassu defense system (Defense System VIII) provides a host cells with resistance to plasmid transformation.

In some embodiments, a Lamassu defense system (Defense system VIII) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Lamassu defense system (Defense System VIII) provides the host cell resistance from entry of conjugative elements.

In some embodiments, a microbial species does not comprise an endogenous Defense System VIII. In some embodiments, a microbial species does not express an endogenous Defense System VIII. In some embodiments, a microbial species does not express an endogenous functional Defense System VIII.

In some embodiments, a bacterial species does not comprise an endogenous Defense System VIII. In some embodiments, a bacterial species does not express an endogenous Defense System VIII. In some embodiments, a bacterial species does not express an endogenous functional Defense System VIII.

A Lamassu defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, and a LmuB polypeptide comprising a pfam02463 domain. In some embodiments, a Lamassu defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a lmuA gene and a lmuB gene.

In some embodiments, a Lamassu defense system comprises, a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, and a LmuB polypeptide comprising a pfam02463 domain. In some embodiments, a Lamassu defense system comprises a LmuA polypeptide and a LmuB polypeptide.

In some embodiments, a Defense System VIII comprises a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns H and I; or a LmuB polypeptide comprising a pfam02463 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns L and M; or a combination thereof.

In some embodiments, a Defense System VIII comprises at least two different polypeptide components selected from a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 column H and I; and a LmuB polypeptide comprising a pfam02463 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns L and M.

In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a LmuA polypeptide and a LmuB polypeptide. In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a LmuA polypeptide and a LmuB polypeptide comprising a RecF/RecN/SMC N-terminal domain.

In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a LmuB polypeptide comprising a RecF/RecN/SMC N-terminal domain.

In some embodiments, the Lamassu anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising lmuA and lmuB genes.

In some embodiments, a Lamassu (Defense System VIII) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 7; construct 13 of Table 4) 1 tgcatattta taattgtgtg ttgaggcgag tgttaatcta ttgcaaatag ttttgcaatt 61 ctccactagt caattatatc tcttgatatc catcttgata aaaaactttt aaagacactt 121 tctcatttgg gaggtgtctt tatttattgg tatcatagtt tttttatggg agctaataaa 181 agtaacataa gatccgctca tgcattctgt gtctgataat gaaaaaaatt aggtatttat 241 atttgatagt tcaaaatcta tattattgaa aacataataa aattttcctg ataaatagta 301 ccattttttt gaaaatcctg atatcatata aataagagag aggatatcag gaggagcgca 361 atgattgaaa ttgacaacgg gggagccatc gcactaaaag gatttaacta tcaaaaagct 421 tccatcatac ttgtaatgat tcataatttt gaaaaagata attttatagt catacctgaa 481 tcgcaagaag attttgaaat tcatcttgga caagatactt attttataca agtgaaagga 541 acaaaaaaac tttccatagg taagttgaag tcaaggccta gcggaaaagc ttcaatcata 601 gagaaaaatc tttctcctgg taatgttgga gatataagga aaatatttct ctgggatata 661 gcggagttaa caaaaaacga attgataagc caagaaggaa cgcttattcc tatgaaacac 721 agcctttcat tgaaacaaaa gacagagatt ataaatactc ttgatttaga tgaagaacag 781 aaaaatagaa tgaacaatca atatatatat ataacccctt ttccaaacga tataaatttg 841 gctttaacat ttttaaaagg agaaatggtt aatgaaaact tgctggtttc taacgatcga 901 gctaaattag ttttaggaga actatcattg gaaatagatc gtaaaagtga aatagtagtt 961 tctactgaaa gtgatgtaga aaggaaaaaa atcgacggga attatcttaa gcaggtattc 1021 attaatatta agcaaaaaga gatgtttgat gaaattttag ataatctctc tatcaacaca 1081 attatgaaaa aaaaagtaaa gaaggagaaa ttaagaatac cactcttgta tcaaaatatt 1141 aaagagcaaa cgaagcaaaa ggcagatatt aatttactta tgagggagaa tgatgagggt 1201 gctattaact atctcagaga tctattggta gagatagtgc cagatatgaa gcctacagaa 1261 ctatctattg ctttagcaat agactgtttt tgtgagttgg gagaataaaa tctatgataa 1321 taattgcttt ttctattctt gattttaaaa ataaagaagc acaaaatttt gactttaaag 1381 ctgggactaa tctaattgtt agtaaaggaa ataccaaagg taaatcaagt cttttaaaat 1441 caatgtatta tacattagga tttgatgtgc atcaatttcc tagtaactgg aacataaatt 1501 ttatgtattt ccaaatagaa gtcttaataa ataatgttaa atataatata actagacaaa 1561 aaaatatttt tagagtaagt gatgtagaag tacctttgaa tgtaaaagag tattcagagt 1621 ggcttcaaca taaacttgag attaaaatgc agttagctaa tactcatact aagcacttat 1681 acgaggcata ttcttcggca gtaattttac cattttacat agatcaagac gattcttggg 1741 atggcggaat ttatagaaat gtaactaata ctctgaatca atatactcgc ataccggcag 1801 atattttcaa aagtgttttt aatctctcca attacgaact tctggagttg caaaattcgc 1861 ttactaatta tagtaaagaa aagaatacgg tagtgtctac aataaagagt ttattaaatg 1921 ttttggaaga ttatagacat gaaaacgcag atgtccctac tgtttcaaaa attgataaaa 1981 tagccttaaa taaagatatc gatcgctact tgcagatgca aaatgaatta aatgaacaaa 2041 tagtaaaata taaaatgaag ctattaaaca agcaagaaat gttggattta caaaagcaag 2101 aattgtctga attagagcag cttttaaaaa tgaacaaaaa gagatataac tctattgaaa 2161 cagaatgtca atattgtcat tctaaattaa caaaagaaca atctttaaca agacttgatt 2221 tatcgaataa ttattttgaa atatcgcttt tgaaagagga aatagaaaaa gaagtagtaa 2281 aattgactaa tgaaattata atattcgaat cacaacaaaa ttctattgaa tctaaaattg 2341 atgaaattca tcgtaggatt caaaattcta aagatctact tacgattgat gattatgtaa 2401 aagcaactgc taaaaaagaa gcatcaaatg aattggaaag tttagttgat aaacaagttc 2461 tttctaaata taatttagaa gaaaaaatta aagtattaag aagggaaatt aataaactga 2521 agaaagagaa agaaagttta agagagatta ttgagcgaga ttacactgat ttggtatttg 2581 aaataaaaaa agtgttgaat gatttaaatg atacaaagct ggatttatct gaattaaatc 2641 tggatgaact taaatttctt gaatttaaga aaatatcggg gagtggtatg gataaaaata 2701 aaaaattttt agcttactat ttaatttatt ttagtttgtt gagaaagtat agctcttata 2761 taattccctt ttgtatggat tcgtttatta aaaatgaaat tacgggtgag actgcaaaaa 2821 agatgtttga agcaatagaa aaatattttt ttgacactaa tcagtctttc ttttcaatcg 2881 tttctgaaaa ccttaaacat ttagagtttg tagatagtta caataagatt aatgttgagg 2941 gtaagctgtt ggttagagat aaatatgatg agattgcttt gaaattcaaa tttgatagtt 3001 aaaattatta aagggccttg aatgacattt gatagttcaa actttcaaat gcctgaagag 3061 aaaaatgatt atccgaaaga aattaactca tatagaatta tgcacttaat attcttaatt 3121 ttttagtaga atactcaatc ctttgatttt ttttggaata taataacatt tttcatcaga 3181 aaacaacaag gggaaaagcc aatttcttta cagtaggagt tggctttatt gtgcagaaac 3241 taaattaaat attatatgtt ttttcgatct taaccatatg aaaggataaa taaacaaaga 3301 gttgattgac ttcgttcttc gcttcataga ttgaggagtt gattcaactt tccattct

The coding regions for each of the lmuA and lmuB gene sequences within this embodiment of a Lamassu cassette (SEQ ID NO: 7) are as follows: nucleotides 361-1308 encode an embodiment of a LmuA polypeptide, and nucleotides 1314-3002 encode an embodiment of a LmuB polypeptide.

In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 7. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 7. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 7. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 7. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 7.

In some embodiments, a Lamassu (Defense System VIII) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 8; construct 14 of Table 4) 1 gaagatgcgg ttaacaaaat agaagagatt ttgttggtaa tgtgaccaat tttgtgatca 61 ctggttttgt atagtatagg aatagaaaaa taacaaccgt atcaaacgtt aatttgacac 121 ggtttctaca actatgccct cggagaggct cgaactcatg gccttcatcc tgtcaaagtg 181 taaatagaag tcgttagttt aacgtaagtc aaatcggaaa tcggcactat ttacggatac 241 cgttatatca acgtttgcag ctaaatagtt atacgtccgt cttgttttct attattaatt 301 aaagcgtgta gtaccgccat actgcaagat ataaaaccgt taattgtcat tttaggatcc 361 ttcacattca ttgattatta cgaagctgca ggaatggcta tgtaaacagt acatgtttgg 421 aaagaaatga agatgatagg agaaaatctt catgaaattt atcatcgagc gaattaaatg 481 gacgtatgta aaaggtgatg aacaacccac gatgaaaatt aaatacaagt aaacgagcca 541 cgctcgtcac tgggcgtggt tttaatgtgt gtaattggaa actgtatgta aaaaagaaat 601 taacaagttt gttagtactg gatgatttag gataaaaaat gaaatttata acaaattata 661 gcttaaaatt gatataatat gataagaagg atgttttgct attgtaattt aagaaacaag 721 aattttgaac agaaaaaatt cactatataa atgaaattgt aaaattgcct ttgggattta 781 aaggagggat ggctagtgga tataagttct tatcctagct tggaaactta tgaagcacgt 841 gagaatacag gttcaaggtc ttcaaacaga ttagctatgc aaattagttt tgctatgtgg 901 aagatttttg aattatatca aaatgaagat tttactgtgg ctatggattg tattgatgat 961 gtagtcatat ttaaaacatc aaatgaaaat ccaactattg tgacttatca attgaaaaca 1021 aaggatgcta ctacggggaa ctttgaactg agaaagctaa ttggtgataa tgtatttttg 1081 aaaatgtatg atcacattga aaaaatagat gcagatgttg aagaaatata tttaataact 1141 aacaatcctt tgaaatttag aaagaaaacg gttaatgcag aacggatttt atttgaaaaa 1201 ttagatgaag atataaaaga gttaattgaa gaaaatatgt ctcagagtaa agtttttgca 1261 gataaaggat tatcatctaa gtttatatat tctttggtag atatgtcttt tcataatcat 1321 agagaaatca gtcaatataa attaaattct ttattaatga aagaaaaaat agatattagt 1381 ataacagctg cagatgcact ttttaatgca ttgcaagata ttttaacaac taagcaaaat 1441 tatgagttta gtttacaaga tgaatttaat acggtactaa agaaaaaaag ttactcgaaa 1501 acggaattta catcactatt ggataactcg aaaaaaatta atgcctatgt tttatctttc 1561 gaggatattc gtaccaacta taaaagcaaa cctttaaagc tgaaagaaga aagtttatac 1621 aggagagcga tggctagtgt taaagaaaaa tgcaataaat ctcctaatat attacaaaat 1681 ataaatgaag atatttttca atatgctaaa gagcagattg atatcaatga cgaaataacg 1741 agaattgagc tagtcatact tttacaaagt gtttttgacg acaagataaa tgttgagtta 1801 tctaaagaag aaaaagaaat tctatatatg caaaatatcg aattagccct aagggaggga 1861 taaactcatg aataaaataa taattcgtaa gttatttata tttgatgtga ttgaaaaaaa 1921 agccaaaagt gtagattttg aagatggtat caatattgtt acaagtaaag gaaatcaact 1981 gggtaaatca actataatga aatctattta ttatacattg ggtgcagaag tgttttttgc 2041 cgacagatta aatgtaaaga gtaaaatcca tatgttagag acagacgtta atgataagaa 2101 atataccttt attagacatg gcgatgttgt tgtgataaaa gatggtaaag gaatttttaa 2161 gacgtcgaac gcttctgaat tatcatctaa gttgcatgat atatttggat ttagcgtttt 2221 tctagaagat aaacagaaaa aatatgtgat agctccacct gtatttcgtt acattcctta 2281 ttatattgac caagaccatg gttggacatc agaattgaaa tcttttgata aattaggtca 2341 attcgataaa aaaagcaggg atttattatt ttattatcat ttaaatattc ttgatgaaga 2401 ttatggagta aagttgaaag agaaaaaaga actagatgct tcaatgactg atttgaaaac 2461 taggaaaaaa gagattttag gcctactcgc atacataaga gagaatatta cagcttttaa 2521 tttagaaatg gatattacag cgttacaaat tcaaaagaga gaaatactta ataaatataa 2581 aaagtattca tatgatttga ataacatacg aagaaaaatt ttagaatatc aagaagaaat 2641 atttaaaatt gacaatgtaa ttgataattt aaatagtact ttgaaacaaa atgataaagt 2701 aagagaacat ataaaacatc aatttgatgt agagtgcccg tattgtaata atcattttga 2761 aatacaggcg aaagatatat taagaattaa ttataatatt gtagacttag aggcatcaaa 2821 attagaaatg ctagatataa aagaaaaatt attggggaaa atgaaaaaag tacaaaaaga 2881 gtatgaagat tatcaagcta cgttgaaagc tattgaagaa gaaaaagttg attcagaaaa 2941 tacacttgaa gacatactga aatttaaagg gttacaagaa actcaaaatc aactaaatac 3001 ggaacttgtc aaaaatactg gtgatataga agaaaagtca gaagacttaa aagaaataag 3061 acgagattta aaaaaatggc aggatgaaat agataaagtt aacagtaggt ataaggatat 3121 cttaaattta aatctaatta gatttaatac gaatgaacat gcactccctg aaaaatataa 3181 tattggaaaa aacctcaaag catctggtag cggtcaagtt cgagttaatt tagctagagt 3241 atattcattt ataaagcttc ttgaagaata taatcctaca ggattaaaat atccattagt 3301 aattgactct cctaaaggcg gagaacagag tactacaaat agtgaattga ttttaagatt 3361 gttgacggag aaagcgcaaa tttcaaatca aattatttta gctacaattg attttgaaag 3421 tttttataat ggagatacta aaaaattcaa cataatctct ttagaaaatg aaccttatca 3481 tttattatct gctgaagatt atcaaaataa tcaagtgata attgatgact ttgtttcttt 3541 atattttgaa gcaaatcaat aaatagaaat agtaaaagga cgctttaata cgaagcgtcc 3601 tatttaattt gaaggagccc tcaaacaggg aatcctt.

The coding regions for each of the lmuA and lmuB gene sequences within this embodiment of a Lamassu cassette (SEQ ID NO: 8) are as follows: nucleotides 877-1863 encode an embodiment of a LmuA polypeptide, and nucleotides 1868-3562 encode an embodiment of a LmuB polypeptide.

In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 8. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 8. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 8. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 8. In some embodiments, a Defense System VIII comprising a LmuA polypeptide and a LmuB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 8.

In some embodiments, a construct comprising the Lamassu defense system encodes one component of the defense system, whereby multiple constructs, for example but not limited to, two constructs may be used to assemble the functional defense system. In some embodiments, the components of a Lamassu defense system comprise genes lmuA and lmuB. In some embodiments, the components of a Lamassu defense system consist of genes lmuA and lmuB. In some embodiments, the components of a Lamassu defense system comprise nucleic acid sequences encoding a LmuA polypeptide and a LmuB polypeptide. In some embodiments, the components of a Lamassu defense system consist of nucleic acid sequences encoding a LmuA polypeptide and a LmuB polypeptide.

In some embodiments, a construct comprising the Lamassu defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Lamassu defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of LmuA and LmuB may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Lamassu defense system.

In some embodiments, the components making up a functional Lamassu anti-phage defense system comprise a LmuA polypeptide and a LmuB polypeptide, each encoded by a lmuA and a lmuB gene, respectively.

In some embodiments, a lmuB gene encodes a polypeptide comprising a RecF/RecN/SMC N-terminal domain. In some embodiments, a LmuB polypeptide comprises a RecF/RecN/SMC N-terminal domain.

In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid encoding a LmuA polypeptide. In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid encoding a LmuA polypeptide and a LmuB polypeptide. In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid encoding a LmuB polypeptide.

In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid comprising a lmuA gene. In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid comprising a lmuA gene and a lmuB gene. In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid comprising lmuB gene.

In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is LmuA and LmuB. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of nucleic acid sequences encoding LmuA and LmuB.

In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is lmuA and lmuB. In some embodiment, the 5′ to 3′ order of genes in a Lamassu defense system is not lmuA and lmuB. In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of lmuA and lmuB.

In some embodiments, the Lamassu system (Defense System VIII) composition and order is as shown in FIG. 3B.

In some embodiments, a Lamassu defense system having an anti-phage activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 16). A skilled artisan would appreciate that the Lamassu system is not present in the majority of bacteria and or archaea species.

In some embodiments, a functional Lamassu defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. For example, the source of the nucleic acid sequence encoding a LmuA polypeptide may be one microbial species, while the source of the nucleic acid sequence encoding a LmuB polypeptide may be a different microbial species. In some embodiments, a functional Lamassu defense system comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Lamassu defense system comprises a combination of at least two polypeptides that do not naturally occur together.

In some embodiments, a functional Lamassu defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a LmuA polypeptide may be one bacterial species, while the source of the nucleic acid sequence encoding a LmuB polypeptide may be a different bacterial species.

In some embodiments, the source of the nucleic acid encoding a LmuA polypeptide and a LmuB polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a LmuA polypeptide and a LmuB polypeptide is the not the same. In some embodiments, the source of the nucleic acid sequence of any of the components of a Lamassu defense system comprises any of the species listed in Table 16.

In some embodiments, a Lamassu defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Lamassu system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. A skilled artisan would appreciate that the majority of bacteria and archaea do not comprise a Lamassu defense system.

According to some embodiments, the Lamassu defense system components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Lamassu system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Lamassu defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Lamassu defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 16.

According to some embodiments a prokaryotic cell expresses a non-endogenous Lamassu defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Lamassu defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Lamassu defense system is selected from the group consisting of the species listed in Table 16.

In some embodiments, Lamassu defense system components comprise LmuA and LmuB polypeptides. In some embodiments, Lamassu defense system components comprise functional portions of LmuA and LmuB polypeptides. In some embodiments, the Lamassu defense system functional components are encoded by lmuA and lmuB genes.

Non-limiting embodiments of endogenous Lamassu systems and the respective location of their components are provided in Table 16 herein.

In some embodiments, the components of a Lamassu system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, the term “LmuA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the lmuA gene. In some embodiments, the term “LmuA” refers to a LmuA polypeptide. In some embodiments, the lmuA gene encodes a polypeptide comprising a pfam14130 domain. In some embodiments, the lmuA gene encodes a polypeptide comprising a DUF4297 domain. In some embodiments, the lmuA gene encodes a polypeptide comprising a pfam14130 domain and a DUF4297 domain. In some embodiments, the LmuA polypeptide comprises a pfam14130 domain. In some embodiments, the LmuA polypeptide comprises a DUF4297 domain. In some embodiments, the LmuA polypeptide comprises a pfam14130 domain and a DUF4297 domain.

In some embodiments, LmuA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a LmuB polypeptide in a genome of a prokaryotic cell. In some embodiments, LmuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a LmuB polypeptide in a genome of a prokaryotic cell. In some embodiments, LmuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a LmuB polypeptide in a genome of a prokaryotic cell.

In some embodiments, LmuA and LmuB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, LmuA and LmuB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, lmuA and lmuB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, lmuA and lmuB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

As used herein, the term “LmuA” refers to the polynucleotide or expression product e.g., polypeptide encoded by the lmuA gene. In some embodiments, the term “LmuA” refers to a LmuA polypeptide. In some embodiments, the product of the lmuA gene comprises a pfam14130 domain. In some embodiments, the lmuA gene encodes a DUF4297 domain. In some embodiments, the product of the lmuA gene comprises a pfam14130 domain or a DUF4297 domain, or any combination thereof. In some embodiments, the product of the lmuA gene comprises a pfam14130 domain and a DUF4297 domain.

In some embodiments, LmuA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a LmuB polypeptide in a genome of a prokaryotic cell. In some embodiments, LmuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a LmuB polypeptide in a genome of a prokaryotic cell. In some embodiments, LmuA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a LmuB polypeptide in a genome of a prokaryotic cell.

In some embodiments, a LmuA polypeptide is about 361 amino acids long (median gene size).

In some embodiments, the LmuA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I. In some embodiments, the LmuA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I. In some embodiments, the LmuA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 16, rows 2-698, columns H and I.

In some embodiments, the LmuA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I. In some embodiments, the LmuA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I.

In some embodiments, the LmuA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I. In some embodiments, the LmuA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I. In some embodiments, the LmuA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I. In some embodiments, the LmuA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I. In some embodiments, the LmuA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns H and I.

In some embodiments, the LmuA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the LmuA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the LmuA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the LmuA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the LmuA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J.

In some embodiments, the nucleic acid sequence of a lmuA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the lmuA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the nucleic acid sequence of a lmuA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the lmuA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J. In some embodiments, the nucleic acid sequence of a lmuA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns H and J.

As used herein, the term “LmuB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the lmuB gene. In some embodiments, the term “LmuB” refers to a LmuB polypeptide. In some embodiments, the product of the lmuB gene comprises a pfam02463 domain. In some embodiments, the lmuB gene encodes a RecF/RecN/SMC N-terminal domain.

In some embodiments, LmuB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a LmuA polypeptide in a genome of a prokaryotic cell. In some embodiments, LmuB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a LmuA polypeptide in a genome of a prokaryotic cell. In some embodiments, LmuB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a LmuA polypeptide in a genome of a prokaryotic cell.

In some embodiments, a LmuB polypeptide is about 559 amino acids long (median gene size).

In some embodiments, the LmuB polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M. In some embodiments, the LmuB polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M. In some embodiments, a homologue of the LmuB polypeptide comprises a RecF/RecN/SMC N-terminal domain. In some embodiments, the LmuB polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M.

In some embodiments, the LmuB polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M. In some embodiments, the LmuB polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M.

In some embodiments, the LmuB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M. In some embodiments, the LmuB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M. In some embodiments, the LmuB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M. In some embodiments, the LmuB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M. In some embodiments, the LmuB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 16, rows 2-698, columns L and M.

In some embodiments, the LmuB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the LmuB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the LmuB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the LmuB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the LmuB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N.

In some embodiments, the nucleic acid sequence of a lmuB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the lmuB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the nucleic acid sequence of a lmuB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the lmuB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N. In some embodiments, the lmuB gene homolog encodes a polypeptide comprising a RecF/RecN/SMC N-terminal domain. In some embodiments, the nucleic acid sequence of a lmuB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 16, rows 2-698, columns L and N.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System VIII component” or “functional fragment of Defense System VIII component” or “functional portion of a Lamassu defense system component” or “functional fragment of Lamassu defense system component” refers to a functional portion of a Lamassu polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Lamassu polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “LmuA”, “LmuB”, “lmuA” and “lmuB”, also refer to functional LmuA, LmuB, lmuA and lmuB, homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences referenced in Table 16 rows 2-698 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polynucleotide sequences referenced in Table 16 rows 2-698 columns H and J and L and N, respectively, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within similar domain regions of the polypeptide sequences referenced in Table 16 rows 2-698 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity or homology within nucleotide sequences encoding similar domain regions to the polynucleotide sequences referenced in Table 16 rows 2-698 columns H and J and L and N, respectively.

Table 16 presents embodiments of components of Defense System VIII that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 16 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System VIII (referenced in Table 18).

The Kiwa Defense System

In some embodiments, a defense system disclosed herein comprises a Kiwa anti-phage defense system. (Table 17)

In some embodiments, a Kiwa defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Kiwa defense system (Defense System IX) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Kiwa defense system provides a host cell with resistance to at least one phage.

In some embodiments, a microbial cell comprising a Kiwa defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a Kiwa defense system protects the microbial cell from phage infection. In some embodiments, a microbial cell expressing a functional Kiwa defense system protects the microbial cell from phage infection. In some embodiments, a bacterial cell comprising a Kiwa defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a Kiwa defense system protects the bacterial cell from phage infection. In some embodiments, a bacterial cell expressing a functional Kiwa defense system protects the bacterial cell from phage infection.

In some embodiments, a Kiwa defense system provides a host cell with resistance to a plasmid.

As used herein, the term “a Kiwa anti-phage defense system” may be used interchangeably with the term “a Defense System IX”, having all the same meanings and qualities. A skilled artisan would appreciate that the term “Kiwa system” may be used interchangeably in some embodiments with “Kiwa defense system”, and “Kiwa the defense system”, “Kiwa anti-phage system”, having all the same meanings and qualities.

In some embodiments, a microbial species does not comprise an endogenous Defense System IX. In some embodiments, a microbial species does not express an endogenous Defense System IX. In some embodiments, a microbial species does not express an endogenous functional Defense System IX.

In some embodiments, a bacterial species does not comprise an endogenous Defense System IX. In some embodiments, a bacterial species does not express an endogenous Defense System IX. In some embodiments, a bacterial species does not express an endogenous functional Defense System IX.

A Kiwa defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a KwaA polypeptide and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof. In some embodiments, a Kiwa defense system comprises, a nucleic acid construct comprising a nucleic acid sequence encoding a KwaA polypeptide and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof, wherein said KwaA polypeptide is encoded by a gene positioned within 5 genes of a gene encoding a KwaB polypeptide in the genome of a prokaryotic cell. In some embodiments, a Kiwa defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a kwaA gene and a kwaB gene.

In some embodiments, a Kiwa defense system comprises, a KwaA polypeptide and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof. In some embodiments, a Kiwa defense system comprises, a KwaA polypeptide and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof, wherein said KwaA polypeptide is encoded by a gene positioned within 5 genes of a gene encoding a KwaB polypeptide in the genome of a prokaryotic cell. In some embodiments, a Kiwa defense system comprises KwaA polypeptide and a KwaB polypeptide.

A Kiwa defense system comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid sequence encoding a KwaA polypeptide and a KwaB polypeptide comprising a pfam16162 domain or DUF4868 domain or a combination thereof. In some embodiments, a Kiwa defense system comprises a nucleic acid construct comprising a nucleic acid sequence encoding a KwaA polypeptide and a KwaB polypeptide.

In some embodiments, a Defense System IX comprises a KwaA polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns H and I; or a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns H and I; or a combination thereof.

In some embodiments, a Defense System IX comprises at least two different polypeptide components selected from a KwaA polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns H and I; and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns H and I.

In some embodiments, a Kiwa defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a KwaA polypeptide and a KwaB polypeptide. In some embodiments, a Kiwa defense system having an anti-phage activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a kwaA gene and a kwaB gene.

In some embodiments, the Kiwa anti-phage defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising kwaA and kwaB genes.

In some embodiments, a Kiwa (Defense System IX) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 3; construct 2 in Table 4) 1 taatggtctt ccttccattg gtatctcgtg agtatacaag caatatcgaa tcggcaaata 61 tactcattag tatactcaca agcctgttga tgtgggttgg ttcaggttga cttcagttga 121 ggagaaaagc tggaaaagcc ttgcgtggcg cggatttcag gcataaaaaa agacctcagt 181 tgaggtctat ttacatactt ttggtgcgaa ggccggactc gaacatcgca actatcctta 241 tgatcttaat ggattaaaaa ttaccatatt ggtcatgata ccatcattga taccatcaga 301 cccgattgat gataatcgaa cagtaataaa atatgactaa acaatttatg cttcaacata 361 agattgaatg ctttgatcta ccattttaat gcagtggaaa aatttttaac acaatactta 421 agaaaaataa tttcatataa aaactacatt tcatttcata tagttaacac accaaaaaca 481 actgtatata aacccagtaa aaaatggtag aatcactatt gtgttcaatt gttgaacatt 541 tataatacat ttgtcggata ggggggtgtt tatgcaaagg aacacataca acaaagtagg 601 tctatacatc ctatctttag ctatgctttt tgtttttatt attatcctga ctgccaaaat 661 ccccttttgc ttcacttcgg attgtagctt cataggtttg aagaaacttg tattaacaaa 721 tattgttcct attgtttgct ttgtattttt tctatttagt atttattttt ataatagatt 781 aaaaaacata acaaaataca atggacaaga tagcgttaaa ataacatcat gtcaaagcga 841 aagctatgaa agtttaacat tcttagcaac atacattgta ccttttatgg ggtttagttt 901 tgaagacatg caaaagaata tagcatatct tttgcttgta gtagtaatag gcattatttt 961 tattaaaaca gacaagtatt atgcgaatcc aactttagct ctgtttggct ttaaactata 1021 cagggtaaat atactacacc caggaagtgg agaaacaaaa aatctgatag ctatttcaaa 1081 tgatgtatta aaagtggacg ataatgttta ttatagtttc tttgacgaat ttgtttttat 1141 agcaaggaaa aaaatatgac tactcagcag ttaaaagaaa aaatttcaaa aataattgat 1201 aactttagcg gaatcagggt tgtatttact actactgcta atgaactaaa gctttccaga 1261 attgaaggga gtgcattaaa tagcatagct gaagggttta ttgacaaaat caaagaagac 1321 attataaata atgaagatct cacctcaccc ttgctgtcca attttgatga tagaaaaaat 1381 gccttgttta aatttgatta cgaacaatat cctgaagaat ttaacaaaat cactcaggcc 1441 atcgctatcc ctcctaactc acaagattat tataaccctt taaataaatt cacagatgtg 1501 aaaggaatta taattttaat aagtggagat aacaaatgcc tggctcttta taaaaacaaa 1561 actaaccttg cagtattgag aaatagcaga aaaatgttta atttagtccc tgaccctgat 1621 ggatacttga aacaactccc taatgagata ttacggttag atttcaatta tgatctattt 1681 tcaattggtg aggattttta cattaaaaat cacaagactc ttgaaactca aatgaaattt 1741 catcaagtga ttgaagccca agcagttatt gctttaaatt ctttacggga ttcactacta 1801 attgaagaca tatcaggttt agaaaagagt tcgagagaaa tttcattcgc tagaaagttg 1861 gcaaaaatct ccaaacattc tcctgttttg gggaaaatag atactaaaac aattattgat 1921 tatgtatccc aacataaata tttatctgca atacttcaga ttaatgaagc gggagataag 1981 ttattaatta aaaccaagac atcacagaag catttcatta aactcatgag cgatgattat 2041 ttacaatcag atctaaccaa aataatatac atgagcatag caaaagacag attagatgaa 2101 tagaacttta agtagaagtg acaaatatta taaaccattc ttgaaatata tttgtcacta 2161 ttactaat.

The coding regions for each of the kwaA and kwaB gene sequences within this embodiment of a Kiwa cassette (SEQ ID NO: 3) are as follows: nucleotides 572-1159 encode an embodiment of a KwaA polypeptide, and nucleotides 1156-2103 encode an embodiment of a KwaB polypeptide.

In some embodiments, a Defense System IX comprising a KwaA polypeptide and a KwaB polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 3. In some embodiments, a Defense System IX comprising a KwaA polypeptide and a KwaB polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 3. In some embodiments, a Defense System IX comprising a KwaA polypeptide and a KwaB polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 3. In some embodiments, a Defense System IX comprising a KwaA polypeptide and a KwaB polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 3. In some embodiments, a Defense System IX comprising a KwaA polypeptide and a KwaB polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 3.

In some embodiments, a construct comprising the Kiwa defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system. In some embodiments, the components of a Kiwa defense system comprise genes kwaA and kwaB. In some embodiments, the components of a Kiwa defense system consist of genes kwaA and kwaB. In some embodiments, the components of a Kiwa defense system comprise nucleic acid sequences encoding a KwaA polypeptide and a KwaB polypeptide. In some embodiments, the components of a Kiwa defense system consist of nucleic acid sequences encoding a KwaA polypeptide and a KwaB polypeptide.

In some embodiments, a construct comprising the Kiwa defense system encodes one component of the defense system, whereby a second construct may be used to assemble the functional defense system. In some embodiments, a construct comprising the Kiwa defense system encodes one component of the defense system, whereby additional constructs may be used to assemble the functional defense system. For example, in some embodiments each of KwaA and KwaB may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional Kiwa defense system.

In some embodiments, the components making up a functional Kiwa anti-phage defense system comprise a KwaA polypeptide and a KwaB polypeptide, each encoded by a kwaA and a kwaB gene, respectively.

In some embodiments, a Kiwa defense system having an anti-phage activity comprise a nucleic acid encoding a KwaA polypeptide. In some embodiments, a Kiwa defense system having an anti-phage activity comprise a nucleic acid encoding a KwaA polypeptide and a KwaB polypeptide.

In some embodiments, a Kiwa defense system having an anti-phage activity comprise a nucleic acid comprising a kwaA gene. In some embodiments, a Kiwa defense system having an anti-phage activity comprise a nucleic acid comprising a kwaA gene and a kwaB gene.

In some embodiments, a Kiwa defense system having an anti-phage activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is KwaA and KwaB. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random, for example any order of KwaA and KwaB.

In some embodiments, a Kiwa defense system having an anti-phage activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is kwaA and kwaB. In some embodiment, the 5′ to 3′ order of genes in a Kiwa defense system is not kwaA and kwaB. In some embodiments the 5′ to 3′ order of genes does not affect the anti-phage activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-phage activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of kwaA and kwaB.

In some embodiments, the Kiwa system (Defense System IX) composition and order is as shown in FIG. 3B.

In some embodiments, a Kiwa defense system having an anti-phage activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 17). A skilled artisan would appreciate that the Kiwa system is not present in the majority of bacteria and or archaea species.

In some embodiments, a functional Kiwa defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. For example, the source of the nucleic acid sequence encoding a KwaA polypeptide may be one microbial species, while the source of the nucleic acid sequence encoding a KwaB polypeptide may be a different microbial species. In some embodiments, a functional Kiwa defense system comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Kiwa defense system comprises a combination of at least two polypeptides that do not naturally occur together.

In some embodiments, a functional Kiwa defense system comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a KwaA polypeptide may be one bacterial species, while the source of the nucleic acid sequence encoding a KwaB polypeptide may be a different bacterial species.

In some embodiments, the source of the nucleic acid encoding a KwaA polypeptide and a KwaB polypeptide is the same. In some embodiments, the source of the nucleic acid encoding a KwaA polypeptide and a KwaB polypeptide is the not the same. In some embodiments, the source of the nucleic acid sequence of any of the components of a Kiwa defense system comprises any of the species listed in Table 17.

In some embodiments, a Kiwa defense system having an anti-phage activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Kiwa system disclosed herein comprises a multi-gene phage resistance system broadly distributed in microbial genomes, for example but not limited to bacteria and archaea. According to some embodiments, the Kiwa system components are located in a gene cluster (a cassette of genes) in a microbial cell genome. According to some embodiments, the Kiwa system components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Kiwa defense system. According to some embodiments, the prokaryotic cell expresses an endogenous functional Kiwa defense system. According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 17. According to some embodiments a prokaryotic cell expresses a non-endogenous Kiwa defense system. According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Kiwa defense system. According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Kiwa defense system is selected from the group consisting of the species listed in Table 17.

In some embodiments, Kiwa defense system components comprise KwaA and KwaB polypeptides. In some embodiments, a Kiwa defense system components comprise functional portions of KwaA and KwaB polypeptides. In some embodiments, the Kiwa defense system components are encoded by kwaA and kwaB genes.

Non-limiting embodiments of endogenous Kiwa systems and the respective location of their components are provided in Table 17 herein.

In some embodiments, the components of a Kiwa system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, a Defense System IX comprises a membrane associated complex.

In some embodiments, the term “KwaA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the kwaA gene. In some embodiments, the term “KwaA” refers to a KwaA polypeptide. In some embodiments, a KwaA polypeptide comprises transmembrane helices. In some embodiments, a kwaA gene encodes a polypeptide comprising transmembrane helices.

In some embodiments, KwaA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a KwaB polypeptide in a genome of a prokaryotic cell. In some embodiments, KwaA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a KwaB polypeptide in a genome of a prokaryotic cell. In some embodiments, KwaA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a KwaB polypeptide in a genome of a prokaryotic cell.

In some embodiments, KwaA and KwaB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, KwaA and KwaB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, nucleic acid encoding additional copies of KwaB is positions 3′ of the nucleic acid sequence first encoding a KwaB polypeptide.

In some embodiments, kwaA and kwaB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, kwaA and kwaB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a KwaA polypeptide is about 194 amino acids long (median gene size).

In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, a KwaA homolog comprises transmembrane helices. In some embodiments, the KwaA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 17, rows 2-935, columns H and I.

In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I.

In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I.

In some embodiments, the KwaA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, the KwaA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, the KwaA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I. In some embodiments, the KwaA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns H and I.

In some embodiments, the KwaA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, the KwaA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, the KwaA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, the KwaA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, the KwaA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J.

In some embodiments, the nucleic acid sequence of a kwaA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, the kwaA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, the nucleic acid sequence of a kwaA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, the kwaA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J. In some embodiments, a kwaA gene homolog encodes a polypeptide comprising transmembrane helices. In some embodiments, the nucleic acid sequence of a kwaA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns H and J.

As used herein, the term “KwaB” refers to the polynucleotide or expression product e.g., polypeptide encoded by the kwaB gene. In some embodiments, the term “KwaB” refers to a KwaB polypeptide. In some embodiments, the product of the kwaB gene comprises a pfam16162 domain. In some embodiments, the product of the kwaB gene comprises a DUF4868 domain.

In some embodiments, KwaB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a KwaA polypeptide in a genome of a prokaryotic cell. In some embodiments, KwaB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a KwaA polypeptide in a genome of a prokaryotic cell. In some embodiments, KwaB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a KwaA polypeptide in a genome of a prokaryotic cell.

In some embodiments, KwaA and KwaB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments KwaA and KwaB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a KwaB polypeptide is about 315 amino acids long (median gene size).

In some embodiments, the KwaB polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M. In some embodiments, the KwaB polypeptide comprises the amino acid sequence having at least 80% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M. In some embodiments, the KwaB polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 17, rows 2-935, columns L and M.

In some embodiments, the KwaB polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M. In some embodiments, the KwaB polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M.

In some embodiments, the KwaB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M. In some embodiments, the KwaB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M. In some embodiments, the KwaB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M. In some embodiments, the KwaB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M. In some embodiments, the KwaB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 17, rows 2-935, columns L and M.

In some embodiments, the KwaB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the KwaB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the KwaB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the KwaB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the KwaB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N.

In some embodiments, the nucleic acid sequence of a kwaB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the kwaB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the nucleic acid sequence of a kwaB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the kwaB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N. In some embodiments, the nucleic acid sequence of a kwaB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 17, rows 2-935, columns L and N.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System IX component” or “functional fragment of Defense System IX component” or “functional portion of a Kiwa defense system component” or “functional fragment of Kiwa defense system component” refers to a functional portion of a Kiwa polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-phage activity alone or in combination with the at least one of the other Kiwa polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “KwaA”, “KwaB”, “kwaA” and “kwaB”, also refer to functional KwaA, KwaB, kwaA and kwaB homologs, which exhibit the desired activity (i.e., conferring phage resistance). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences referenced in Table 17 rows 2-935 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polynucleotide sequences referenced in Table 17 rows 2-935 columns H and J and L and N, respectively, respectively. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within similar domain regions of the polypeptide sequences referenced in Table 17 rows 2-935 columns H and I and L and M, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity or homology within nucleotide sequences encoding similar domain regions to the polynucleotide sequences referenced in Table 17 rows 2-935 columns H and J and L and N, respectively.

Table 17 presents embodiments of components of Defense System IX that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 17 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System IX (referenced in Table 18).

The Wadjet Defense System

In some embodiments, a defense system disclosed herein comprises a Wadjet anti-plasmid defense system. (Table 11)

In some embodiments, a Wadjet defense system provides a host cell with resistance to entry of foreign nucleic acid invasion. In some embodiments, a host cell expressing a functional Wadjet defense system (Defense System Xa; Defense System Xb; or Defense System Xc) provides the host cell resistance foreign nucleic acid invasion.

In some embodiments, a Wadjet defense system provides a host cell with reduced efficiency of transformation of plasmids. In some embodiments, a Wadjet defense system provides a host cell with protective activity against plasmids.

In some embodiments, a Type I Wadjet defense system provides a host cell with reduced efficiency of transformation of plasmids. In some embodiments, a Wadjet Type I defense system provides a host cell with protective activity against plasmids. In some embodiments, a Type II Wadjet defense system provides a host cell with reduced efficiency of transformation of plasmids. In some embodiments, a Wadjet Type II defense system provides a host cell with protective activity against plasmids. In some embodiments, a Type III Wadjet defense system provides a host cell with reduced efficiency of transformation of plasmids. In some embodiments, a Wadjet Type III defense system provides a host cell with protective activity against plasmids.

In some embodiments, expression of a Wadjet Type I defense system in microbial cells protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, expression of a Wadjet Type II defense system in a microbial cell protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, expression of a Wadjet Type III defense system in a microbial cell protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, expression of a Wadjet Type I defense system in bacterial cell protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, expression of a Wadjet Type II defense system in bacteria protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, expression of a Wadjet Type III defense system in bacteria protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, a microbial cell comprising a Wadjet Type I defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a microbial cell expressing a Wadjet Type I defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a microbial cell expressing a functional Wadjet Type I defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, a bacterial cell comprising a Wadjet Type I defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a bacterial cell expressing a Wadjet Type I defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a bacterial cell expressing a functional Wadjet Type I defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, a microbial cell comprising a Wadjet Type II defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a microbial cell expressing a Wadjet Type II defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a microbial cell expressing a functional Wadjet Type II defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, a bacterial cell comprising a Wadjet Type II defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a bacterial cell expressing a Wadjet Type II defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a bacterial cell expressing a functional Wadjet Type II defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, a microbial cell comprising a Wadjet Type III defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a microbial cell expressing a Wadjet Type III defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a microbial cell expressing a functional Wadjet Type III defense system protects the microbial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, a bacterial cell comprising a Wadjet Type III defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a bacterial cell expressing a Wadjet Type III defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation. In some embodiments, a bacterial cell expressing a functional Wadjet Type III defense system protects the bacterial cell from plasmid entry, reducing or eliminating plasmid transformation.

In some embodiments, a Wadjet defense system provides a host cell with resistance to at least one phage. In some embodiments, a Wadjet Type I defense system provides a host cell with resistance to at least one phage. In some embodiments, a Wadjet Type II defense system provides a host cell with resistance to at least one phage. In some embodiments, a Wadjet Type III defense system provides a host cell with resistance to at least one phage.

In some embodiments, a Wadjet defense system (Defense system Xa, Xb, or Xc) provides a host cell with resistance to entry of conjugative elements. In some embodiments, a host cell expressing a function Wadjet defense system (Defense System Xa, Xb, or Xc) provides the host cell resistance from entry of conjugative elements.

As used herein, the term “a Wadjet anti-plasmid defense system” may be used interchangeably with the term “a Defense System X”, having all the same meanings and qualities. Further, in some embodiments, the term “a Wadjet Type I defense system” may be used interchangeably with the term “a Defense System Xa”, having all the same meanings and qualities, and in some embodiments, the term “a Wadjet Type II defense system” may be used interchangeably with the term “a Defense System Xb”, having all the same meanings and qualities, and in some embodiments, the term “a Wadjet Type III defense system” may be used interchangeably with the term “a Defense System Xc”, having all the same meanings and qualities.

A skilled artisan would appreciate that the term “Wadjet system” may be used interchangeably in some embodiments with “Wadjet defense system”, “Wadjet the defense system”, “Wadjet defense system”, “Wadjet anti-plasmid system”, “Wadjet Type I defense system”, “Wadjet Type II defense system”, “Wadjet Type III defense system”, “Defense System Xa”, “Defense System Xb”, and “Defense System Xc”.

In some embodiments, a microbial species does not comprise an endogenous Defense System X. In some embodiments, a microbial species does not express an endogenous Defense System X. In some embodiments, a microbial species does not express an endogenous functional Defense System X.

In some embodiments, a bacterial species does not comprise an endogenous Defense System X. In some embodiments, a bacterial species does not express an endogenous Defense System X. In some embodiments, a bacterial species does not express an endogenous functional Defense System X.

In some embodiments, a microbial species does not comprise an endogenous Defense System Xa. In some embodiments, a microbial species does not express an endogenous Defense System Xa. In some embodiments, a microbial species does not express an endogenous functional Defense System Xa.

In some embodiments, a bacterial species does not comprise an endogenous Defense System Xa. In some embodiments, a bacterial species does not express an endogenous Defense System Xa. In some embodiments, a bacterial species does not express an endogenous functional Defense System Xa.

In some embodiments, a microbial species does not comprise an endogenous Defense System Xb. In some embodiments, a microbial species does not express an endogenous Defense System Xb. In some embodiments, a microbial species does not express an endogenous functional Defense System Xb.

In some embodiments, a bacterial species does not comprise an endogenous Defense System Xb. In some embodiments, a bacterial species does not express an endogenous Defense System Xb. In some embodiments, a bacterial species does not express an endogenous functional Defense System Xb.

In some embodiments, a microbial species does not comprise an endogenous Defense System Xc. In some embodiments, a microbial species does not express an endogenous Defense System Xc. In some embodiments, a microbial species does not express an endogenous functional Defense System Xc.

In some embodiments, a bacterial species does not comprise an endogenous Defense System Xc. In some embodiments, a bacterial species does not express an endogenous Defense System Xc. In some embodiments, a bacterial species does not express an endogenous functional Defense System Xc.

A Wadjet defense system (Defense System X) comprises, in some embodiments, a nucleic acid construct comprising a nucleic acid construct comprising a nucleic acid sequence encoding a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a pfam09660 domain or a DUF2397 domain or no known domain, or any combination thereof; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a pfam09661 domain or a DUF2398 domain or no known domain, or any combination thereof; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or a COG1196 domain, or a combination thereof; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a COG4924 domain, or any combination thereof.

A Wadjet defense system (Defense System X) comprises, in some embodiments, a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a pfam09660 domain or a DUF2397 domain or no known domain, or any combination thereof; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a pfam09661 domain or a DUF2398 domain or no known domain, or any combination thereof; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or a COG1196 domain, or a combination thereof; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a COG4924 domain, or any combination thereof.

In some embodiments, a Wadjet Type I defense system (Defense System Xa) comprises a nucleic acid construct comprising a nucleic acid construct comprising a nucleic acid sequence encoding a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain, or any combination thereof; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain, or any combination thereof; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain, or a combination thereof; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain, or any combination thereof. In some embodiments, a Wadjet Type I defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a jetA, jetB, jetC, jetD gene.

In some embodiments, a Wadjet Type I defense system (Defense System Xa) comprises a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain, or any combination thereof; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain, or any combination thereof; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain, or a combination thereof; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain, or any combination thereof. In some embodiments, a Wadjet Type I defense system comprises a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide.

In some embodiments, a Defense System Xa comprises a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns J and K; or a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns N and O; or a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns R and S; or a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns V and W; or any combination thereof.

In some embodiments, a Defense System Xa comprises at least two different polypeptide components selected from a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns J and K; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns N and O; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns R and S; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns V and W. In some embodiments, a Defense System Xa comprises at least three different polypeptide components selected from a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns J and K; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns N and O; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns R and S; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns V and W. In some embodiments, a Defense System Xa comprises four different polypeptide components selected from a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns J and K; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns N and O; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns R and S; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns V and W.

In some embodiments, a Wadjet Type II defense system (Defense System Xb) comprises a nucleic acid construct comprising a nucleic acid construct comprising a nucleic acid sequence encoding a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain, or any combination thereof; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain, or any combination thereof; a JetC^(ii) polypeptide comprising a pfam13558 domain; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain, or any combination thereof. In some embodiments, a Wadjet Type II defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a jetA^(ii), jetB^(ii), jetC^(ii), jetD^(ii) gene.

In some embodiments, a Wadjet Type II defense system (Defense System Xb) comprises a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain, or any combination thereof; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain, or any combination thereof; a JetC^(ii) polypeptide comprising a pfam13558 domain; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain, or any combination thereof. In some embodiments, a Wadjet Type II defense system comprises a JetA^(ii) polypeptide, a JetB^(ii) polypeptides, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide.

In some embodiments, a Defense System Xb comprises a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns J and K; or a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns N and O; or a JetC^(ii) polypeptide comprising a pfam13558 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns R and S; or a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns V and W; or any combination thereof.

In some embodiments, a Defense System Xb comprises at least two different polypeptide components selected from a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns J and K; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns N and O; a JetC^(ii) polypeptide comprising a pfam13558 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns R and S; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns V and W. In some embodiments, a Defense System Xb comprises at least three different polypeptide components selected from a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns J and K; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns N and O; a JetC^(ii) polypeptide comprising a pfam13558 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns R and S; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns V and W. In some embodiments, a Defense System Xb comprises four different polypeptide components selected from a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns J and K; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns N and O; a JetC^(ii) polypeptide comprising a pfam13558 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns R and S; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns V and W.

In some embodiments, a Wadjet Type III defense system (Defense System Xc) comprises a nucleic acid construct comprising a nucleic acid construct comprising a nucleic acid sequence encoding a JetD^(iii) polypeptide comprising a pfam09664 domain or a DUF2399 domain or a pfam09983 domain or a DUF2220 domain, or any combination thereof; a JetA^(iii) polypeptide comprising no known domain; a JetB^(iii) polypeptide comprising no known domain; and a JetC^(iii) polypeptide comprising a COG1196 domain. In some embodiments, a Wadjet Type III defense system (Defense System Xc) comprises a nucleic acid construct comprising a nucleic acid construct comprising a nucleic acid sequence encoding a JetD^(iii) polypeptide comprising a pfam09664 domain or a DUF2399 domain or a pfam09983 domain or a DUF2220 domain, or any combination thereof; a JetA^(iii) polypeptide; a JetB^(iii) polypeptide; and a JetC^(iii) polypeptide comprising a COG1196 domain, said JetA^(iii) polypeptide being encoded by a gene positioned within 5 genes of a gene encoding JetD^(iii) and or JetC^(iii) in a genome of a prokaryote, and said JetB^(iii) polypeptide being encoded by a gene positioned within 5 genes of a gene encoding JetD^(iii) and or JetC^(iii) in the genome of the prokaryote. In some embodiments, a Wadjet Type III defense system comprises a nucleic acid construct comprising a nucleic acid sequence comprising a jetD^(iii), jetA^(iii), jetB^(iii), and a jetC^(iii) gene.

In some embodiments, a Wadjet Type III defense system (Defense System Xc) comprises a JetD^(iii) polypeptide comprising a pfam09664 domain or a DUF2399 domain or a pfam09983 domain or a DUF2220 domain, or any combination thereof; a JetA^(iii) polypeptide; a JetB^(iii) polypeptide; and a JetC^(iii) polypeptide comprising a COG1196 domain. In some embodiments, a Wadjet Type III defense system (Defense System Xc) comprises a JetD^(iii) polypeptide comprising a pfam09664 domain or a DUF2399 domain or a pfam09983 domain or a DUF2220 domain, or any combination thereof; a JetA^(iii) polypeptide; a JetB^(iii) polypeptide; and a JetC^(iii) polypeptide comprising a COG1196 domain, said JetA^(iii) polypeptide being encoded by a gene positioned within 5 genes of a gene encoding JetD^(iii) and or JetC^(iii) in a genome of a prokaryote, and said JetB^(iii) polypeptide being encoded by a gene positioned within 5 genes of a gene encoding JetD^(iii) and or JetC^(iii) in the genome of the prokaryote. In some embodiments, a Wadjet Type III defense system comprises a JetD^(iii) polypeptide, a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, and a JetC^(iii) polypeptide.

In some embodiments, a Defense System Xc comprises a JetA^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns J and K; or a JetB^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns N and O; or a JetC^(iii) polypeptide comprising a COG1196 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns R and S; or a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain or a DUF2220 or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns V and W; or any combination thereof.

In some embodiments, a Defense System Xc comprises at least two different polypeptide components selected from a JetA^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns J and K; a JetB^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns N and O; a JetC^(iii) polypeptide comprising a COG1196 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns R and S; and a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain or a DUF2220 or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns V and W. In some embodiments, a Defense System Xc comprises at least three different polypeptide components selected from a JetA^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns J and K; a JetB^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns N and O; a JetC^(iii) polypeptide comprising a COG1196 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns R and S; and a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain or a DUF2220 or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns V and W. In some embodiments, a Defense System Xc comprises four different polypeptide components selected from a JetA^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns J and K; a JetB^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns N and O; a JetC^(iii) polypeptide comprising a COG1196 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns R and S; and a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain or a DUF2220 or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns V and W.

In some embodiments, a JetA^(iii) polypeptide comprises identical domains as are present in JetA and JetA^(ii). In some embodiments, a JetA^(iii) polypeptide comprises homologous domains with domains present in JetA and JetA^(ii), wherein the amino acid sequences comprise at least 80% homology. In some embodiments, a JetB^(iii) polypeptide comprises identical domains as are present in JetB and JetB^(ii). In some embodiments, a JetB^(iii) polypeptide comprises homologous domains with domains present in JetB and JetB^(ii), wherein the amino acid sequences comprise at least 80% homology.

In some embodiments, a Wadjet Type I defense system having an anti-plasmid activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide. In some embodiments, a Wadjet Type I defense system having an anti-plasmid activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a jetA gene, a jetB gene, a jetC gene, and a jetD gene.

In some embodiments, a Wadjet Type II defense system having an anti-plasmid activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide. In some embodiments, a Wadjet Type II defense system having an anti-plasmid activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a jetA^(ii) gene, a jetB^(ii) gene, a jetC^(ii) gene, and a jetD^(ii) gene.

In some embodiments, a Wadjet Type III defense system having an anti-plasmid activity comprises a nucleic acid construct comprising a nucleic acid sequence encoding a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, and a JetD^(iii) polypeptide. In some embodiments, a Wadjet Type III defense system having an anti-plasmid activity comprises a nucleic acid construct comprising a nucleic acid sequence comprising a jetA^(iii) gene, a jetB^(iii) gene, a jetC^(iii) gene, and a jetD^(iii) gene.

In some embodiments, the Wadjet Type I anti-plasmid defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising jetA, jetB, jetC, and jetD genes. In some embodiments, a construct comprising the Wadjet Type I defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system.

In some embodiments, a Wadjet Type I (Defense System Xa) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 17; construct 59 of Table 4) 1 gttgatcaag aaacaactta tagcgtgtag tttttgttgg ataaaatttt aaaagttatg 61 taatttgatg caggggaatt gaaacgtaat atagaaattt ataattataa ttatagagtt 121 aaatgatggt gcttaatgga agacgatgat agcgaaaaag gaggctgaaa tgaaaaaact 181 atttgaatgc attccggaaa attatttcaa tttgtttgct gggaaaaatc gggggtttta 241 tgctgaagtt gcttttttac tatatgaaca attccatatc aatcgagctg gtattttata 301 cagtttgatg aaagatgagg ttcaagaatt aatagaaacg aaagaagagt taggagaatg 361 tattgatata gaagatgaaa tagaagaaaa agagcaagac agtgctggga gagcaaatga 421 ggtgcttcga cgtttaaaga aacttaaatg gattgatgta gaagtacgtg atcaatttga 481 agagtttata gtgcttccag tgtattctag ccgtattttg gctgtgctaa aggaaatttg 541 tgaaaataga acaattgaat atcaaagata ttgttttacg acatatcaat tattaacagg 601 agtggaggcg gaggagcgcc cagcttcagc tattttggag tctgaaaaat atagtgagca 661 actttatgat gaattaacaa ttttactgca caatatgaaa aatcatatgg aaacaattgc 721 agctaaagat gatatacaac aagtgttaga gcatcatttt ggagaatata aaaaagatat 781 aattgataaa agttaccatc gtttaaggac atcggatcat gtgtcgagat atcgaaataa 841 aatattggag cgtatacaga cttggttttt agatgataaa ttcatgaaac gtgctgccga 901 agatgctgta gaaagtggat attctgctaa ctgggaagaa gcaatggatg gattaagtaa 961 gaaaatgtat agggttgaag aaatttatag taatttagat gaaatttgta atcaaattga 1021 tgcacgccat tatcaatatt tacgagcagt tttagatcgt tctagatatt taagtactta 1081 taatgacagt atcaattaca aaatatctta tattttagaa catatagggc aaatggacga 1141 gaatatactc gattcttctc tgtttcgttt agtacagttg cggcaacttc aagaagcgtc 1201 actgttatcc ccacgtaaga aaaaaggtgt atatgaacca gaacagcatg aggttaatga 1261 aattagtgat gagatgcgag aggagctaaa ggctgaaaat ataagacgta tggaaaaggt 1321 tatgaatcga aagaaaatcc aaaaatttgt gttagaagca atgaaggggc gtcaagagat 1381 agagatgagt gaattgaatt tgcaaaatga ggatgacgct ttgtatttaa tttacgttta 1441 tttgtatggt tatagtaagg gaactggata caagcttagt gaagagccac ctgaatttat 1501 tacacaaaag gggtatacat tttctaatcg tacgataaaa cgagaaaatt agggggaagt 1561 tatgcaaaat gtatcggaaa gagaaagaga agagatgggg attgttgtta attatttatt 1621 ctcccataat tttttattga aagaatttga acgtgagaag tatcacctgg cagtacggaa 1681 taaagatatt attaagcaat atttacaggt aattggttgg gattttattg tggatgaaaa 1741 gcatgggtgt attgttattg tttcgccaca ttacgagcat cgtttgaaat tgaagaaaga 1801 cgaaacgatt tggttgttag tattaagact tatttatgag gaaaagcgta gcgctctatc 1861 tattagtcaa tatcccttta ccactcttca agaaatcaag gggaaatatg agacgtttcg 1921 attaccgttt gtatcaaaaa caaaattacg tgaacttgtg cagattggaa agcaaaatca 1981 acttttgaga ccaattgata atgacataga gtcggatgat tgtcgttttc agcttttcca 2041 ttcatgcatt catgtgctgc aacaaggaga tttaaatgta ttgtatgaaa aaataaaatc 2101 ttatagtgag ggtggggatc acagtgaaat ggatgaagaa actacgatta attaattggc 2161 attattatag tgatgaaaca attttatttg gaaaacaaac agtgatatct ggacatacag 2221 gagcagggaa atcgactgtt attgatgctt tacaagtcct atttatttcc gatgagcgga 2281 agattaaatt taattcagca gcatatgagg aggccaatcg tactttaatt aattatttgc 2341 gggggaagat aggtacagaa gaaaaacctt ttgtaagaga agggtatttt acaacatata 2401 ttgttgctga gttttatgat gagaaggcag gagagagttt tgtaattggt atttcaattg 2461 atgtatttaa agatgatgaa aaagtaaaag agtattttat tataccgaaa tctgagatta 2521 atatgatttc gttttttagt acaaaagacg agaaacgtta tgtggaaaag caagcagact 2581 tttgtaaaaa aataagagaa caatttccag aggctataat tgaaaaaagt tcaaatcaat 2641 atcaaaaggc tttattacaa cgttttggtg gattacatga aagatttgtt aaaacgtttg 2701 caagagcatt atcgtttaaa ccaatcgata acatgaaaga ttttgtatat aaaaatatat 2761 tggacgaaaa agaattaaaa atcgacgtta tgaggaatat ttttcaaaca catgaagaat 2821 tgcaaagaga attagaagaa ttaaaagaac gaaaggaaga gctggagcga atagataata 2881 tttatttgga atgtgtaaag ctggaagcgg atatttccat acaagaatat gttcttagag 2941 ggctagagta tttattaata caagaagaaa agagcatgtg taaaaaaagt attgaacaga 3001 gagaaaaaga attaagaaaa tgtgaatcag atcaaaaaaa gacagcggaa caaaaagagc 3061 atgctagaaa aaaagagact gagtatgaaa ttaagattaa ggatagtgct gaacaaaaaa 3121 gacaaaaaca attacaagaa caaatagctc aagcgaaaaa agaatgtggt gatttagagt 3181 gtaccaaaaa catatatgtt catagtttag caagagaaga aaaggatgtt tctagtcttt 3241 taaattatca aggtaatgaa tatttctctt taagcaagga cgagaagcat gcattggaaa 3301 taggaagaga ttgtctagcc ttcttgtcac ataatgatgg tactggaggg aatagggaag 3361 agcaaacatt aaataaactt ggagagagtt taaaaagaat tagtgggcgt ttttataaga 3421 gtacagcaga attggaacac agatctgctg aattgaaaac agaagagaaa gaattacttt 3481 ctgatataga gaatttaaaa agaaggaagc gtccttatcc catgtctgtt gaaaagttga 3541 agggattact agaaaaacat ttagaggatc aatcgaaggt atggattctt tgtgaagagt 3601 tagaaataaa aaatgataaa tggcgaaatg ccctagaagg gtatttgaat actcaaagat 3661 ttgatatttt ggtagaacca catatgtttg cgactgcact gtctatctac gaaaaggaaa 3721 agtggaatct tggtcttgaa ggtgttggac ttgttgatac tgaaaaagaa caaacatatt 3781 tagggaaagt tgagaagggt tctttagctg aagagatagt aggtggtaac ccaatagtac 3841 aggctcgaat tcatcattta ttaggtaggg ttataaaggc agacaatgaa caagaattac 3901 gaaagtataa aacagctgtt actgcgacat gtatgagtta tcaacgtctt gtagcacgcc 3961 aaattcctag aaaagtatat gaaaccccat atataggtgc acatgctatt caaaagcaat 4021 tagaaattaa agaagaaaac ttaaaggaaa ttcaaacaga actgcaaata gtaggatact 4081 atattaaaga ctttaagaaa tggattgaaa ttttagaaga taagcaatcg gattataaga 4141 attatatatt aaatttctca ttaaacgata gtatcttgga gtttaataag aacataaata 4201 aatggaagag tgaactaaat actcttgatt tgtcacgttt agaaagttta cgccaaaagt 4261 tgaaagagtg gaatggaaaa tataatcaat ttaatggaga agaaggtaga ctgtttgaac 4321 aaattgggaa ggtgaaggaa gaacttcaaa gagtgaatgc tgagttatgg aaaaaggaaa 4381 aggccgcaac agagatttta gagaagtgga aaaattggaa gtttgaatat agaatcgaat 4441 tattacaaga ggctgagcaa aggtacgagc aagctatttc tacaaataaa gcttatggtg 4501 ctataaaaaa taaatacgaa aataataaaa aagaaaatca aaataaatac gaagaaaaaa 4561 ggggttttct agaaagtgaa cgtaagtctt ataatgaagc gcgaactttc caaggaatta 4621 tacaggctaa agataataag cagtacgaag aagcgctccg gaaaattgca aacctcgata 4681 tcccaaagtt tgaacaagag atcaaggaaa cgttgcagca agctgaagag gaatttcagt 4741 ctcactttat ttacaagatg cgtgaggcta ttcaagcggc gcgtagagaa tttaatcaat 4801 tgaaccatgc gttaggaaga tttaaattcc gaaatgacac gtatcgattt gtaataaagc 4861 caagtgaaca atataaaaaa ttttatgatg taattatgga tgaaagagta cagccggaga 4921 tatctctatt tgattttggt gatgaagata gggcggagat tttaaaggac ttatttggta 4981 gattagtggt gggcgagtat ggtgaaaacg aagagtttgt ggactatcgt aattatctcg 5041 attttgattt aagcattaat aatgaaaatg gaacaagatt tatgtctaac ttattacgtg 5101 agcaatctgg tggagagacg caaacacctt tttatattgc catcctagca tcatttcaac 5161 acctttatcg aaataaaaat accattcgtt tagtagtgtt tgatgaggct tttaataaaa 5221 tggatgaaga gcggattcaa attagtttac gtcttattaa acagttggac ttgcaattaa 5281 ttgcagctgt gccagatgag aaaatggctc atatggcagc tgaggcagat acagctataa 5341 taattaaccg aatagggcat tcatgtttta ctgacatatt atcttatcca agggaggacg 5401 aggcaattgg attacaagag caagattctt tcagtcttat tgaataaata tgaaaatagt 5461 aaaactgctc atacaggtga gagaagtgct cagcgccctc aattttcatt tcggcaaaaa 5521 catgaacttt ctaaagcata taatgatgaa atggattata cgaaccgatt agaaattaat 5581 actgcattaa aggacttaat tcgtaaaaaa attattgaag tgaaatggga aaagtgggaa 5641 gagaatcgaa ttgctgaaaa ggtttattta cagtatgatt ttattccaca agcttataga 5701 gaagctggta tagaaccaaa aattgaaaag atgaatagga ttttaaaagt gttagaacca 5761 cttgctgttc attcatggga gtgggttcga caatggtata aagaagtaca acagtcgttt 5821 caaaataata aaacggcacg aattaattta aacgatgtta aaggatatga actacttgta 5881 aaagcacttt ctagattaga aggtttggaa gatagtatac cgaaaaggac ctttagccaa 5941 ttagtattcg gggatacaaa actttttgaa actacgatac aaaaccgatt attaataata 6001 tataaaaggt acggagatat agaatatgaa agtgataaag aatatttaga gagtattggg 6061 attttagaga atatccaacc tgtctatata aaaggaaatg ttgatattcg tgttagagga 6121 gagaagattg ctctcggttc ctttcctggt gggttcggtt taatggatga aacaataaaa 6181 gaactagaaa ttcagtatgt acacgatgaa agtataatgc ttattgaaaa catgaccaca 6241 tactatgaac aaattaaaaa aaataataat attttattta tctatacagg tgggtttcct 6301 aagaagaatg tacagcaatt gttaaaaaag ttgaatatat atttggaaaa tcatccagtt 6361 ccagtatatc actatggaga tctggactac ggaggaatcc aaatatttga gtacattaag 6421 cgttcgtttt tttcagggct tgagccgtat atgatggatg tagctaccta caggcaattt 6481 gtaaagtacg ggatggaatt tggtgaaggg tatgaagaaa aattactgaa gatgttagag 6541 aatgagcagt attctttatg gcatgagtta attaaagaaa tgcttaaaga aaagaagcgt 6601 gttgagcagg aagtgatagt tagaaacgta atttagtgta tttatataaa tttaaaaagg 6661 atgtctatag accaggataa cggtttatgg gcatttttta ttaggttttg tataaaagag 6721 atttagttag aggaaatgag atttaatatg ttttgtaaac gccataatat taacgcctga 6781 atttttttag gagaggaaag tagagtgttg gctttgtttt tcgtaattaa ctaagtaatg 6841 tgagaagttt tttatatggg gttatttata taattattaa gtgctagata atgaattgtt 6901 agtccatcct tattttggag gcatgttcta attaaataaa ctggttggat gtaataagtg 6961 aattcctggt aatttatcgt tggaaaaaaa tatatattat gtataattag tgtataaata 7021 aaattctctg aaatttgaaa ggtgataaaa.

The coding regions for each of the jetA, jetB, jetC, and jetD gene sequences within this embodiment of a Wadjet Type I cassette (SEQ ID NO: 17) are as follows: nucleotides 146-1552 encode an embodiment of a JetA polypeptide, nucleotides 1562-2155 encode an embodiment of a JetB polypeptide, nucleotides 2133-5447 encode an embodiment of a JetC polypeptide, and nucleotides 5551-6636 encode an embodiment of a JetD polypeptide.

In some embodiments, a Defense System Xa comprising a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 17. In some embodiments, a Defense System Xa comprising a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 17. In some embodiments, a Defense System Xa comprising a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 17. In some embodiments, a Defense System Xa comprising a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 17. In some embodiments, a Defense System Xa comprising a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 17.

In some embodiments, the Wadjet Type II anti-plasmid defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising jetA^(ii), jetB^(ii), jet^(ii)C, and jet^(ii)D genes. In some embodiments, a construct comprising the Wadjet Type II defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system.

In some embodiments, a Wadjet Type II (Defense System Xb) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 18; construct 60 of Table 4) 1 tctttgggtt cctttacttt ttgtaaaaaa tttaattctt tgcctgaagt atttcgaaaa 61 actgaaagcc tttaaaaaga atttcaccaa tcagtttaat tacagaccaa gattacaata 121 aatttaaaac cattcgatgt caatgtttaa atggaaaaac gtaagtatag gaatccttag 181 ttcaatatta tacaatggga ataatagaca aaaaatagga tgatgatcca tggattcaac 241 aatgaaaaaa ataatagagg ccagttattt aacagccgac tccgcggcac actatcgaac 301 gattcttcgc tatttttatc accagcacga aagaatgaga gattttattg caccggaaga 361 gttattggaa catatgcgtt cgatacctgc cttcgcggac tttcaagagg accagctcca 421 ccagcaatta gcgcagcttg taaaatggaa taatttaatt gccaggcagg atatgacaaa 481 cgcaaaaaca attgaagaat ataaaaagaa acggttccgt tatcaatgta caccctacac 541 ggttgagatt gagagaatga ttgtgcaact agaaaaatta ggagatacgt tccaagggtc 601 gttagaacgc tcccaatttg atcgcctttt ccaagcaata accagccttc aaaatgaact 661 agagaatgac ctaaacaaat cggcagaaga atatatgcgg atttgggagg acgtatttcg 721 ctattttcaa acgattcgta ccagcactgc tgattatatt gcttatatta atagtgaaca 781 aaccgatcaa cgaatgcaaa cagaggcatt tctagtctat aaaaatcagt ttacaacata 841 tttgcgagat tttattgtat ccttgcaaaa aacatcgctg caaatccagc attcattatc 901 agaattaacc ttggaacggt tacagcattt ttttcaaaaa ttaatcgagc atcgcggggc 961 aattccccgt cttgaggatg tttcgtcatc tacaaacgat tggcttactg aatatgagga 1021 atattggttt tcattacggc agtggttttt agggtcggct gttcagcaaa gtgaactaga 1081 tatccttcag tggcagacca atgaaatgat tcgccggatg acaagatacg ttcagcgcat 1141 cggtgaaagg cagcagcatt ttcgcagccg aaaaaaggac tatctgcaat tatcaaaatg 1201 gtttgttgaa tgcagggata gtgaggaagc tcataaactt tcagcagttg tattcggctc 1261 gatgacgatt caacatctcc agcttgagga agcgaccact gaaaaccttc atgtcgatac 1321 atgggatgag gcaccgactg aattaacgat aaaaccgaga acggtccgct accgtgaaaa 1381 aacaaaaccg ggatcgttta actcgaatga acagaagaaa aaagagcagc gagaactcta 1441 tttaaaggaa agagaacaag agaaaaagtt aatcgaaaaa tatatgaccc aaggtaaaat 1501 tacgctttca gcactctcga cagttgaacc attcatccgc aaggttttgt taagctggat 1561 tgggaaatca atggcggcca aaaatcgcat ggtcaagact gattacgggc ttcacgtaaa 1621 ggtaatgctt gattatgaga aaactattac cttacaagct gaggatggca atttactaat 1681 gcctgatgcg acattcttgt ttgaggagac taggtgatga taatggaaca aacgcaatta 1741 ttcgatgaaa aggcaatcca aggaatggac atcttgtttc atcattactg gatcttacgt 1801 gccgaacaac ctgaatggta tcagctgatt cgtgagcggg agaaggtatt gcgccgctat 1861 cttgatgaaa agttcggcct gcggctaatt gttcatcaac attttattaa actggaaaaa 1921 attcctgttg aaccggaagg ctggatgggc atccaagatt tccaagagcc aatggactat 1981 gcgatttttt gctgcgcact tgccttttta gaggggaaag cagtggatga acagtttttg 2041 ctttccgaac tatgtcaaga gattcaagcc gattatcctg gagattttcc gcttgattgg 2101 acgctctata cccaccggaa atcattgata agagctgtaa aagttttgat ggaatttcag 2161 ctcatacgaa ccattgatgg ggatatcggc cgcttcgatc aaaatgaaga gcaggaagtt 2221 ttatatgaag ctagcaccta tagtcgatat ttcatgagaa catatccaga tgatttttcg 2281 agctatcagc actggagcga gttactaaaa gaagattgga aattgaacca agaggatgaa 2341 cgtaggaagc gggtgtaccg caagctgttc ttttcacctg gtttgcatcg gctagatcaa 2401 caggatcctg attttctcta tatccggaac tatcgtaacc gcttagcaga agatattgaa 2461 aagcacagtg agtataaact ccatgtctat aaaaatacgg catttttatc gattgcggag 2521 ccaaggcaat atcaacaggt ttttcctaat tccaaggcat ccactgacat tatccttcag 2581 ttgtcaaagt acattcatgg ggagcctgag cgcttcaaag caaacgaaaa tggtgaaata 2641 ctgatgacgg aaggtgagtt tgaacaagtt gtggatgatt tacggcagca atttggaaca 2701 ggctgggcaa agtattttcg cgatatgagt acaaaaggaa ttcgaacgga actgcttcgt 2761 gccatgaagg attggatgat ggcggaagtg gattcagaaa cttctcttat tcggattaag 2821 tcattaacag gggtcatgac gggggaatat ccgagtgatt ttcaaacagg aggaacagaa 2881 tgatgacaga ggcaaaatgg gtgatgaacc gtgcggggtt attgaatttt tggtattacg 2941 atgatgaaat ttttcctttc tcggatggaa agctactgct taggggaacg aacggctccg 3001 ggaaatctgt aaccatgcaa agcttcctgc ctgttttgtt agacgggaaa aaatcacctg 3061 accgactcga tccatttgga tctaaagccc gcagaatgga agattattta ctcggggaaa 3121 aagaggtggt cgatcgtgat gagcgtacag ggtatctttt tatcgaatat aaaaaggccg 3181 gcgtagagcg atacattaca actgggatcg ggatgcaagc caagcggcat aaaggaatta 3241 agtcttggta ttttgtgatt accgataatc gcagaattgg atatgatttt gaacttgcac 3301 attcgcaact aggagaccga gttccttttt ccgcaaagga actggaaaat cggatcggag 3361 agggcggcta tgttgttcat acccagcgcg aatatatgga gctggtgaat aaatatattt 3421 ttggtttcca atcaaatgaa gcttatgaag acttgatcaa gcttttaatc caattacgaa 3481 gtcctaaact ttcgaaggat tttaaaccga cagtgattta tgaaatatta gagtcggcct 3541 tgcctccttt gaccgatgat gagttaaggc atctatctga taccattgaa agtatggatc 3601 aaacccagca gcagctcgaa cagttggaac gggaatttgc ctctagcagc aggctggtta 3661 accagtatca ttcctataat caatatattt tggccgaacg ggcagggaag tggcaggatg 3721 ccttaaaaag gtacactgtt gctgaggaac atgtaaaagg tttaacagcc caagacgaag 3781 aattgactca agaaattaaa caagaagagg aacagaagca gcaatttgcc cagcagcaag 3841 aaattgcctt agaagaaaaa aagcggttgg agcgccatga ggtttggaat ctggaagagg 3901 ataagcgtaa gaaaatagaa aatacaaaat ctttaagtag tgaaataaat tccttacaaa 3961 agaaatggga ccacaaaaac agtcagtaca atcgtctatg gcaggagcgg gagcagagtc 4021 aaaaccagat aaggcagcat gaaagcggca tggaagattt attaggggag ctgcaatttg 4081 atgcggaaga ggctgctttt tcagagcatg aggttaacgt ccatgatttc gaacgtcatc 4141 aggaggagga gtttgatttt tccatctgga ttggtgagat tggcagtcat gaacaattac 4201 ttgcgaattt aaatcaatta gctgatgagg aaaatcgtct gtcagaagag cataaccggc 4261 tccaacggca atcctctgag aaaaagaaag aggtagatgc aatccgcaag aatctcgatc 4321 atttagccga ttggtttacg gaagagaagc aaaggttgga gcatcaggta tttacttgga 4381 ttgagcagca tccaaagctt attttttcaa atgaaagacg ccaagaaatc gcccgatcaa 4441 tcgaaggttt atatgaagaa aatcggtacg agcaagtgag ggaaaaactc cttgctgtgg 4501 ttaatgatta tattaccgat atcagtacga agaaaaagct catggagaca aaaatagaag 4561 ataaaaagca cgaattggaa gcagcacgag cagaattgca tcactggaag acattaaaaa 4621 tgccaaaccc ggatcgtgct aaggatacag aggcatttcg cttgcagctg ctagaagacg 4681 ggcaggcatt tattccgttt tatgcggccg ttgagttcca agatgatgtg accgaagaac 4741 agaaagagcg gattgaatct gcgttaaaac aaacgggcat attggacagc ttgatcactg 4801 aaaatgccct tgccccaacc catgatcggg taattcgtcc tgagccgcaa ttactcggat 4861 atacgttagc agattatttg cgtccggatt tagaggcaga cagtcttatt tcaaacaaac 4921 ttgttgatga aatattacgg agcatctccc ttgaacagga aggggcaggt tttcatgtgg 4981 atgtcgatgg atcatattca cttggttgtt tagtggggca tgcaccaaat gaagggccgt 5041 ctaaatatat cggccgctca tcccgcaaac gataccagca agagaaaatc aaagaatgtc 5101 aggaaaccat tgagcaactc caattagagt tagaggagct aaaggtgcaa ctcagtcaat 5161 acgaagagaa tctcctccaa gcagcacaat ggaagcagac catgccaaca gatcaggaac 5221 ttaatgactt gaatgttcag attgaaaaga ccggccatca attggaggag caaaaaaagg 5281 ttctttttca gctggatgaa cagtggaagc aagtacacgg tcacctccaa gtgattaaaa 5341 tacagctcca tcaagaaggc cgccagctaa atctttcttt aactaaagaa gtcttagggc 5401 aagcattaat ctcagctaaa aactatcgtg atcaactcta tagctttaaa gatctttttc 5461 aaaaatgttt atttgcccgg aaaagaatag aggatttaac tcatcgctta tttgaaatgg 5521 aaacggaact ggacgatctt aaaggggatc aaaatgtcaa ggaatcacag ttgcggaaag 5581 aaaaggctga aattgagtca attgagcaac agctgaagct aaaagggatc gaggaagtaa 5641 gacttcggat tcaacaagtg cagcaggagc taagggaagc aacagaaggc atcaatcatc 5701 tacttgaaac cattcctcag aagaaagcaa aacaagaaac ctgtcaaaat gaattagcag 5761 cagctaaaac aagtgcggaa ttctggtcaa atatggcgga cgaatgggaa cagatggtga 5821 gagcggatat cgcccgtggt tttgtagaag ttgttgaaat ggatcctgtt aaaatcgtta 5881 aacagctgga atccatttta ggaaaatatg accgttcgaa gctaaatgaa cagctaacaa 5941 agacgttcat caatgaacag atatttttaa cggagtacag gatgtttgaa tacccggaag 6001 agaccgagcg tccagagtgg ttttcgaagg aatggggcga atactatgaa ccatttatga 6061  atgaatggaa tcagcttcaa agccgccgtt taattctaat ggaatataaa ggccagcgtg 6121 tcagtccgta ttttgtgttc acatcactgg aaaaagagtt agaagaccaa aaaggttggc 6181 ttgatgaaca agaccgccaa ctctatgagg atattatcgt caatacagtt ggagtaatct 6241 tacgaaatcg aatcaaacgt gccgaaaaat gggtgagtga gatggacaaa atcatggaaa 6301 gccgtgataa ttcatctgga ttaacgttct cgattgcatg gaaaccatta acggccgaat 6361 cggaacaaga attggataca aaagacttgg ttaagctttt gcagcggaat agtaagtttt 6421 tgaacgagga tgatttaaat cggattacaa aacacttcca atcgagaata ggaaaagcga 6481 aggaattaat tcagttacgg aatgaaggat cgacgcttca tcaagtgtta aaagaagtgt 6541 tggattatcg gaagtggttc acttttgttc tttcatttaa acgtgtaaat gaaccgaaac 6601 gagaattgac gaacaatgcc ttctttaaat ttagcggcgg cgagaaggca atggcgatgt 6661 atattccgtt gtttacggcg gcctattcaa gatataaaga agcaggagag atggcgccgt 6721 atatcatttc actcgatgag gcctttgccg gggtcgatga gaataatatc cgtgacatgt 6781 ttgaagtggt ggaacagctt ggctttaact atataatgaa ctcacaagcc ttatggggag 6841 attatgacac catttcaagt ctatcaattt gcgagttagt acggccaaag aatgccgact 6901 ttgttactgt gattcgctat caatgggacg ggaaacagcg cacctttgtg gtggacgatg 6961 agcacgttga ggagctagtg acacatgatt gacaaagtac aggtgtttag ggacgaacca 7021 ggttttgtta aattgtttac cctatttaaa gaaaaatacc gttcaatcgg gagaatcggc 7081 ggcatggtga gtttggatgg cttttcctat gatgaggtgg aatcaattgc cggctttttg 7141 ggacagtctg ttgaagcgct ccttgaaaaa gggaaggttt cattactttc ttttgaaaaa 7201 gaattaccgt tgaccggttt tgcagagtat tcccttattg aattgcttga agaagtgctc 7261 ggggagtcga tacttactaa acatgaggaa agtggcattg aagaagagaa agaaaagagg 7321 tttttacaag agttatcttt tatatgtcct gagggaagtt ggtggtggga ctggattgag 7381 tcgaaaccgc cggattcccg gtggatttgg tcgctttata agcaggatgc ggttggttta 7441 atggaaaaat tcatcaccgt ttttaaagca tatcaagatc ttccctgtaa ggagaataag 7501 tatgaaagac tgccgctgtt tgcccaacga acaacgggaa atccacatat tttcgataat 7561 aatcaactaa ctgggaaatt gctcgtcaat tgcctgcagg tagatcaaca gcttaagggg 7621 cgacgcgtac cgggaatgcc gaaaacaaca gaggatctaa atgatttgct aggtttgtat 7681 ggtttgatga gggatgattt gtggagtttt gtttcctgcc gcggattact tgcggaaggt 7741 gaaatgggga ttcatcctgt ttggaaagcc gcagctgaaa ctgacacagt tctaaacgtt 7801 ccgcttaagg aattactgaa aataaaaaga atctggcccg ctgcaggaaa aaaggtttgg 7861 attgttgaaa attcaagtgt ttgttcgacg attgttgatg aggttgctga tgctcctgta 7921 atctgcaccc acgggcaatt tcgggctgcg agctggatat tgttggagtt attagtggaa 7981 gcgggctgtc acctttacta ttcgggtgac ctagatccgg aaggggtatc gatggcacag 8041 cggcttttcg atcgttatca gggtcatgta acttgttgga ggatggatgt tgaatcctat 8101 gataaaacca tttcagatga ggatatttct ggcaggcttt ctaaattgga gtcaataact 8161 gcacctgaac ttcttgaagt agtgaatgtc cttaaaatgc ggcaaaaagc gggctatcaa 8221 gaaggtttag ttgagcaact tgttcaggat attaaaaacg agtttaatgt gttactttag 8281 gttgaatcaa atatagtagg aatccagttg gatccccacc acaaaaagcg ctat. 

The coding regions for each of the jetA^(ii), jetB^(ii), jetC^(ii), and jetD^(ii) gene sequences within this embodiment of a Wadjet Type II cassette (SEQ ID NO: 18) are as follows: nucleotides 230-1717 encode an embodiment of a JetA^(ii) polypeptide, nucleotides 1717-2883 encode an embodiment of a JetB^(ii) polypeptide, nucleotides 2883-6992 encode an embodiment of a JetC^(ii) polypeptide, and nucleotides 6985-8280 encode an embodiment of a JetD^(ii) polypeptide.

In some embodiments, a Defense System Xb comprising a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 18. In some embodiments, a Defense System Xb comprising a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 18. In some embodiments, a Defense System Xb comprising a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 18. In some embodiments, a Defense System Xb comprising a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 18. In some embodiments, a Defense System Xb comprising a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 18.

In some embodiments, the Wadjet Type III anti-plasmid defense system comprises a nucleic acid construct comprising nucleic acid sequences encoding a cassette comprising jetA^(iii) jetB^(iii), jetC^(iii), and jetD^(iii) genes. In some embodiments, a construct comprising the Wadjet Type III defense system encodes one component of the defense system, whereby multiple constructs may be used to assemble the functional defense system.

In some embodiments, a Wadjet Type III (Defense System Xc) gene cassette comprises the nucleic acid sequence:

(SEQ ID NO: 19; construct 61 of Table 4) 1 ttccgatact ctttagccat aaagcgatga attctgctgt tccgccgaat atcgcaacgg 61 ttagtgcata tggtaaacct acgcctagtg cacggatttc agttggaaag agttctgctt 121 ttacattgcg ttaatcgatg tgtaaccagt aacgatgatg aggccgacca tcatgagtga 181 aaatgctacc atgggttcta tatccatcat ttttaaaact tggtggatat ggagggacct 241 ggtactgttt tggttttgtg atgtctgtgg gatttcttgc tagcttctgc atgatttgtc 301 ggtaagtcga tatattcgga gttgcggtcg atataattgg ataatcgttg atatattttt 361 taaaggtatg gcattcattg gtagaaagag tgatgcgagc ttatgttaca atggaaatag 421 cttgtaagta aggaagtgac agtatgaatg gtatacaatt tgttcaattg tatgtaatga 481 aaagtgctga aaagattgat gagttgtata taaaaaaaga acaaggtatc acaactctcc 541 ccattataaa gcagaccccg cgtaagatta taaaaacagc ggaacttctt tttagtgaag 601 aagaggtttc ggatgtttct actactatta caaaaaactt ttattcacct aatgtaagga 661 aaagagaaag tgatgtttta aagtggttaa cgatacatga aatgatagat tgtatagaac 721 gagggatttt aattaaggaa gttcgttttg agaaggatgg gaaaactgtg cattccattt 781 tctatcgaat ggggtacggt ttgtttacat atatggaaaa gaaacaacag ctagaaaagg 841 taagagagga agaggcttta cagcaatgga tgaagcgcaa gcagtctatg ccgaagtaca 901 taaatgagta tacggaaaga ttgtggcatg ttttgtgcaa tattgaaagt gatttgtctt 961 ctatagatga aaaacgttgg tcgtttcaga agacgttttt atttttagag tttttacttg 1021 ctacatataa aatgagttgt gaaaagcgta cgtttgattg gaaagagatt ggtgcggcgt 1081 attatgaagt gattggtggt tctaaaaagt ttgatcaaca taaaaaagag tttcttaata 1141 agctggaaga tttgttagat gctccgccgc attgtttagg tttagtgagc ttagggacag 1201 tgacgcctat ctttttttgc gggaatttat atgaaggtaa tacgcgttat gagtgtgaca 1261 cagtgcgttc tttaacggat ttagttgtat ttcgtcatgc gtataaaacg gatgcgaagg 1321 tgttatggct cgttgaaaat agagcggtat taacgaggat tgccgcagag gatgatttta 1381 tttcaagtac aggtagtctc gttatcggag tggatgggca attacgtagt gggcataaaa 1441 ggttgattca aagcgtattg gaccactcaa aatctattac gaaaattatt atttggacgg 1501 attatgatgg ggcaggagag attattagtg ataagttatt cgaactagtt gctccatatg 1561 aacagtatac aagatggatt tcttcagaag gtaaggcgtt aaataaagat gaatttgagc 1621 aatccgttcg tttacgcgaa agtgaacaag aagagagttt aggaggtgtg gatgcttgga 1681 aggaatggat cagtcagtaa tttcgatttt gcaaacagat ccgtcgcata tgggagtacg 1741 aaatgcgatg aaagatttaa ataaattatc aggtgttatt tcagagcttg gagagagtga 1801 gtattttaat gatccattga aaacgtatga gtttctacta ttattaaata ttttaaatga 1861 agaagcgctt ggattgacgt cttctattga agatgtgcgt acgttgaaat tccgttaccg 1921 taatatgtac ggcggggatc cgtcaattcg tttagagcat ttcattaata ttttagataa 1981 atatggatgg atctcaaaag ggaaaagcaa gattacgatg atggacgttg ggaagcgaat 2041 gattgatgtg ttaattcgcc tagcaaacga ttcgttagcg tattacatgc aagatgaaat 2101 aacgaggtct ttatatcaag caaaccgtga tgcggattta agtgaagcgt atgatgataa 2161 aggtgtatcg ggcggaaata aattagcgag tatgataaaa aatgtagaag aagcggtaga 2221 aagactgaaa gagagagaac tcgaatattt agcggaccgc tatgcgttgc cgcaagtgca 2281 gattattcat cgtttaatga atgaattaaa tgttcgtttt gaagaaaggt tccaaaagtt 2341 tcaaacgttt gaagaaagtc ttgtgttaga gcctcttgtg aaaagaggaa cgagcgttat 2401 gtttgaaggt tcacaggtta gtcttggaac gattaagaag attttacatt ttacacatat 2461 tcagcagtct acagtcggag cgaatattcg tcatgatgcg cttcgtcgtt ttattgaaaa 2521 ttgttttacg aagcaaaata tggaattgcc agatgcacat gaaattttaa gttttatgga 2581 gcaagaccgt agagaaggcg agagacaaga tgggttatgg atgccagtac agtttgcggc 2641 gccgttatca agtgctgcga tttctagtgg tattcagttt ttagaagagt acgagccata 2701 tacggatcat atagaagaag ttgtgcagga agaatatgaa gagatagaag aaatgtcaga 2761 agcagaagtg aagaagctaa tggcagatca gcagtggagt atgacgaaag agcaaattca 2821 aacggaacga ttagaagagt ttcttatgga acaagaagaa gtcgatatgg aagagcttgt 2881 gcttgaagcc ggttctaata cgtggggaga tgcggtaaat gcattaatcg cactgtcagc 2941 tttaaccgct aataataagg cggatattat cgataatcaa aatgtaaaag aaagaaacat 3001 agaaaaagaa tgggaatggg gcagtgacga tgataaaaga aaacgagttc gaagccgaga 3061 aaggaattaa tccgctcgcg aaattaggag aacttcggta catattgtct cgtgatgaag 3121 agcatacgtt tatgcaactt ttattttcat cttcagcgcg tatgagagca acaaattttg 3181 gattgcgccg caaagaagta atgaaaatgc ttgggttaaa tagtgaggat atagaagggt 3241 ttgagtcatt tgtaatgcga ataaatggtg cgctaagtgg ctattttcag tgtgtatatg 3301 atgagagacg tgatcaagtc attgtgatga tgcgagtacc agcaaaacaa gcgagagaag 3361 tattatcttc agaaagttta ggattactta tgtttatttt ctaccatcaa gaagtgttgc 3421 aaaatgaatt tacattattt aatcaattac ttagtgcgct tggacatgaa acgttgcaag 3481 cacgtagaaa agtacaaaca aatttagatc cacttttaaa aattggggct attacgaaat 3541 atgattctcc gtcccaagaa gaagcatatg cgttaactgc cattggaagt agaatgtttt 3601 cagattcgtt cttacatagg gcggctgagt ttagtcagtc acaacaactt catatggatg 3661 atgttttaaa attctttaag cgttataacg taggaggtgg agagacgata tgattccata 3721 ccgtatttct ttttctggta tacgtgatta taagccgaga acgatttctt taatggggaa 3781 gcgtgatcac attttaattt caggtgcaaa tggtgccggg aaatcgacgc tgacattttg 3841 ctggggcgct gttatggcgt ctacgaaagt aaatgtggaa gggcttcgtt cgaaaaatct 3901 tccagacaat agagtatggc gagcgaaaat tgaacttata tatgaaaatg atggatttgt 3961 agatgcagca agatttgtga gatttacgct tgatttagaa caagagccag gtcatccatt 4021 gaaaaaagaa tattatattg cagaaggcga tcgggtagat gagtgggagc aagaaacgcg 4081 tttctcatct tcagataagc attttaactt tagagagtat aaaagaatgc ttcttcaaaa 4141 atataaaatt gatccagatg cgttctattt aatttggtac caacaagatg taaatcaatt 4201 tgcagtgatg aagcctgaag agaggttccg tatttttagc gagatgacag gaattgaaag 4261 tattcaaaag tcttgggagt ctttcaaaga acaagaacgt gataaggaag cgattttgca 4321 aacggctcgt aataaccaaa ttcaatataa gttcgaactt gagcgttggg agaaagagaa 4381 aaatcgttat gaagatcaac aaagccgtat aaaacgaggg attctgcaat ataaaacagc 4441 gttatgtaca ctagaagatc attattatac agaacgtatg aagtataagg atgagctaga 4501 agatgtgaaa gagaatcttg atgagaagta tgaagaagct cagcaaggag aaaaacagtt 4561 tgcacaatta gaggcggagt tactagcgaa acaagctgag tttcaaagtg cagaaaaaga 4621 gcgtgaaatt gccgaggaac gacaactaca gtgcaaaaag gaaagtaaag ataaagagcg 4681 agaatggaat gcaatgaaag aagagataaa agacgtaaca gatcgcgtga aaaatatagg 4741 aattagtgaa gatgttgtaa gagcagaaaa gagtagtaaa gagcagcaat tgcaagaagc 4801 tgaaaaggaa aaggtatata cagagcagct tattagtgag acaagttata atttaaatga 4861 attaaggtca gaagttgcga agctagaagt gcaagtagat aatgatgaag cagctgtcgt 4921 ttctgcaaag aattacatag tgcaatataa gtctagtttc tatatggaag aaaagcatac 4981 aaaagtagaa agtatgatga gacagacgaa agatcttgtt gaaacggtga agaaagatct 5041 tcagcaaaaa tacgaagaga aaaagcagct agagctaaat cgttacgtca gtccgaggca 5101 agaagaagga cttagatact taagaaggga agggttacaa gcttatccgc ttcgagactt 5161 aatagaatta gaaggcgacg cagaatttcg tcatgaagat attttaaata caattaaata 5221 tgcgatcttc gtagaatcaa aagaattcag accaccgaat gatttgtatt acgtaccgtt 5281 gccactcatt gttccaactg aaagtgttat ttccttaccg cagtataagc tgagaattaa 5341 agaaggagac aacgaaaaac ttgtttctgt agcaatgaaa gctttatggt gggtaaaaca 5401 attctttaca ggtgagcagc catgtattca aaagaatagt ttaattgata taagaggatt 5461 ccgtggggaa caagaaaaaa cggaatacat tttaagtgaa aaagcaatta tgcaacgttt 5521 agaagagaca ggaaaatgga ttgaagaaca tgaaaaacag ctcatccaat atgagcgtga 5581 tattcaaaca ctggaagaaa aagaaagaaa acttcacgac attgtatata aactaagaga 5641 tgcagaagcc gttttacaaa aagctgccga acgcacattt agaatcgaac agttagggcg 5701 aaaaacggaa gagaaacaaa ggctagaaca ggaaatacaa aggctatatg caattaacca 5761 agaattgcat acgcgcatat ctcgcttaag agagcgtctt gaaacgttag aacagtacga 5821 aatgatatat gaagaactgc ataaggaaaa agaaaaaatt gcacatatgc aaaagcttga 5881 acaaattcat agagagttat tggatgagct caagagagta gtagagcaaa gagatatact 5941 ggatgagact tgtaatagat tggaaattga atgtaataaa gcgagtcaaa aaacgaaaca 6001 acaaaaacaa gaagtagaag aactacgcgc gtatattcag cgtttagaaa agaaaaaaca 6061 agatgttcaa gagcatttca taacgacaga agaaaaacta attagcatac aaagagaaaa 6121 ccaggatgcg aatgacacgt atggaaaatt attagagcaa ctaggttggg aaaaacaaat 6181 agaagagtgg tctgaagcga aagcactttc tcaaaaacaa agcgcagaga ttacactaga 6241 aggagcactc ggtgaaacag ttgatccact agcgccagaa aattacgcga agatgaaaga 6301 agaaaatgaa aaaagtaatg cagaactgca taacgcagaa caaattttga acgaacttcg 6361 cgaaaatata gcacttatga gagaacgtct cgaaacgacg atccaaatga atgctcataa 6421 aatccataaa aagtttgaac agtacatgga acaattccac ttcgaaggaa aagtagaatg 6481 gaacatggac acaaacaaac acggtgacat gcgttactat ctctacataa aagcgcgtaa 6541 aaaaggtcac cgtggcaaaa tggaagacat tagcgccaaa ggacgcggag gcaaagtagg 6601 aagcggcgta tcaggaggag aagaatccct ttcatctcta ctattcgcac tagccttact 6661 acaaacaatc gaagcatccc caggctacat catcctagac gaatacgaca gcgccctaga 6721 cgacagccga aaagaaaaag tcttcaccct attcgaagag gaactaaatc ggaaaatgat 6781 catcgtctca ccaaaaagtc atgatccaaa ctacttacaa cacttctcgc aagcattaac 6841 agttatgcac gatgcgagtg tgccggttag tcgaattttg cagattaaga gggcggtaga 6901 agaaactgaa actgtaatca aggataacta atttaaaacg tccatatcaa attttgatat 6961 ggacgtttta ttgctgttta atatggagat aaagaaaata aggatgtgat tgtaaa.

The coding regions for each of the jetA^(iii), jetB^(iii), jetC^(iii), and jetD^(iii) gene sequences within this embodiment of a Wadjet Type III cassette (SEQ ID NO: 19) are as follows: nucleotides 444-1700 encode an embodiment of a JetD^(iii) polypeptide, nucleotides 1676-3070 encode an embodiment of a JetA^(iii) polypeptide, nucleotides 3030-3713 encode an embodiment of a JetB^(iii) polypeptide, and nucleotides 3710-6931 encode an embodiment of a JetC^(iii) polypeptide.

In some embodiments, a Defense System Xc comprising a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, and a JetD^(iii) polypeptide is encoded by the nucleic acid sequence set forth in SEQ ID NO: 19. In some embodiments, a Defense System Xc comprising a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, and a JetD^(iii) polypeptide, is encoded by a nucleic acid sequence having at least 80% homology to the sequence set forth in SEQ ID NO: 19. In some embodiments, a Defense System Xc comprising a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, and a JetD^(iii) polypeptide, is encoded by a nucleic acid sequence having at least 85% homology, or 90% homology, or 95% homology, or 97% homology, or 98% homology, or 99% homology to the sequence set forth in SEQ ID NO: 19. In some embodiments, a Defense System Xc comprising a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, and a JetD^(iii) polypeptide, is encoded by a nucleic acid sequence having at least 80% identity to the sequence set forth in SEQ ID NO: 19. In some embodiments, a Defense System Xc comprising a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, and a JetD^(iii) polypeptide, is encoded by a nucleic acid sequence having at least 85% identity, or 90% identity, or 95% identity, or 97% identity, or 98% identity, or 99% identity to the sequence set forth in SEQ ID NO: 19.

In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise genes jetA, jetB, jetC, and jetD. In some embodiments, the components of a Wadjet Type I defense system consist of genes jetA, jetB, jetC, and jetD. In some embodiments, the components of a Wadjet Type I defense system comprise nucleic acid sequences encoding a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide. In some embodiments, the components of a Wadjet Type I defense system consist of nucleic acid sequences encoding a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide. In some embodiments, the components of a Wadjet Type I defense system comprise a jetB gene, a jetC gene, and a jetD gene. In some embodiments, the components of a Wadjet Type I defense system consist of a jetB gene, a jetC gene, and a jetD gene. In some embodiments, the components of a Wadjet Type I defense system comprise nucleic acid sequences encoding a JetB polypeptide, and a JetC polypeptide, and an MKsG polypeptide. In some embodiments, the components of a Wadjet Type I defense system consist of nucleic acid sequences encoding a JetB polypeptide, and a JetC polypeptide, and an MKsG polypeptide.

In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetA, JetB, JetC, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetA, JetB, JetC, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetB, JetC, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetB, JetC, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetC, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise a JetD polypeptide. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of a JetD polypeptide. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetA, JetC, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetA, JetC, and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetA and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetA and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetA and JetC polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetA and JetC polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetB and JetC polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetB and JetC polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetB and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetB and JetD polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) comprise JetB and JetC polypeptides. In some embodiments, the components of a Wadjet Type I defense system (Defense System Xa) consist of JetC and JetD polypeptides.

In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetA^(ii), JetB^(ii), JetC^(ii), and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetA^(ii), JetB^(ii), JetC^(ii), and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetB^(ii), JetC^(ii), and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetB^(ii), JetC^(ii), and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetC^(ii), and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of, and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise a JetD^(ii) polypeptide. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of a JetD^(ii) polypeptide. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetA^(ii), JetC^(ii), and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetA^(ii), JetC^(ii), and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetA^(ii) and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetA^(ii) and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetA^(ii) and JetC^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetA^(ii) and JetC^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetB^(ii) and JetC^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetB^(ii) and JetC^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetB^(ii) and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetB^(ii) and JetD^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) comprise JetB^(ii) and JetC^(ii) polypeptides. In some embodiments, the components of a Wadjet Type II defense system (Defense System Xb) consist of JetC^(ii) and JetD^(ii) polypeptides.

In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetA^(iii), JetB^(iii), JetC^(iii), and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetA^(iii), JetB^(iii), JetC^(iii), and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetB^(iii), JetC^(iii), and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetB^(iii), JetC^(iii), and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetC^(iii), and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of, and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise a JetD^(iii) polypeptide. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of a JetD^(iii) polypeptide. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetA^(iii), JetC^(iii), and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetA^(iii), JetC^(iii), and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetA^(iii) and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetA^(iii) and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetA^(11i) and JetC^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetA^(iii) and JetC^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetB^(iii) and JetC^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetB^(iii) and JetC^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetB^(iii) and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetB^(iii) and JetD^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) comprise JetB^(iii) and JetC^(iii) polypeptides. In some embodiments, the components of a Wadjet Type III defense system (Defense System Xc) consist of JetC^(iii) and JetD^(iii) polypeptides.

In some embodiments, a Wadjet system Type I, Type II, or Type III, comprising a non-functional JetA/JetA^(ii)/JetA^(iii) polypeptide or lacking a JetA/JetA^(ii)/JetA^(iii) polypeptide has increased transformation efficiency. In some embodiments, a Wadjet system Type I, Type II, or Type III, comprising a non-functional JetC/JetC^(ii)/JetC^(iii) polypeptide or lacking a JetC/JetC^(ii)/JetC^(iii) polypeptide has increased transformation efficiency. In some embodiments, a Wadjet system Type I, Type II, or Type III, comprising a non-functional JetD/JetD^(ii)/JetD^(iii) polypeptide or lacking a JetD/JetD^(ii)/JetD^(iii) polypeptide has increased transformation efficiency.

In some embodiments, a construct comprising the Wadjet defense system encodes more than one component of the defense system but less than all of the components required for a functionally active defense system, whereby multiple constructs may be used to assemble the functional defense system. For example, in some embodiments each of jetA, jetB, jetC, and jetD may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional a Wadjet Type I defense system. In some embodiments each of jetA^(ii), jetB^(ii), jetC^(ii), and jetD^(ii) may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional a Type II Wadjet defense system. In some embodiments each of jetA^(iii), jetB^(iii), jetC^(iii), and jetD^(iii) may be encoded by nucleic acid sequences comprised in different constructs, wherein expression of the combination of constructs produces a functional a Type III Wadjet defense system.

In some embodiments, components of a Wadjet Type I defense system (Defense Systems Xa) may be encoded by a nucleic acid encoding 1, 2, 3, or 4 components of the Wadjet defense system as described herein. For example, in some embodiments, a construct comprises a nucleic acid comprising a jetA gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA gene and a jetB gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA gene and a jetC gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA gene and a jetD gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB gene and a jetC gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB gene and a jetD gene. In some embodiments, a construct comprises a nucleic acid comprising a jetC gene. In some embodiments, a construct comprises a nucleic acid comprising a jetC gene and a jetD gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA gene, a jetB gene, and a jetC gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA gene, a jetB gene, and a jetD gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA gene, a jetC gene, and a jetD gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD gene, a jetB gene, and a jetC gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD gene, a jetB gene, a jetC gene, and a jetA gene.

In some embodiments, components of a Wadjet Type II defense system (Defense Systems Xb) may be encoded by a nucleic acid encoding 1, 2, 3, or 4 components of the Wadjet defense system as described herein. For example, in some embodiments, a construct comprises a nucleic acid comprising a jetA^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(ii) gene and a jetB^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(ii) gene and a jetD^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB^(ii) gene and a jetC^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB^(ii) gene and a jetD^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetC^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetC^(ii) gene and a jetD^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(ii) gene, a jetB^(ii) gene, and a jetC^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(ii) gene, a jetB^(ii) gene, and a jetD^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(ii) gene, a jetC^(ii) gene, and a jetD^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD^(ii) gene, a jetB^(ii) gene, and a jetC^(ii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD^(ii) gene, a jetB^(ii) gene, a jetC^(ii) gene, and a jetA^(ii) gene.

In some embodiments, components of a Wadjet Type III defense system (Defense Systems Xc) may be encoded by a nucleic acid encoding 1, 2, 3, or 4 components of the Wadjet defense system as described herein. For example, in some embodiments, a construct comprises a nucleic acid comprising a jetA^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(iii) gene and a jetB^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(iii) gene and a jetC^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(iii) gene and a jetD^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB^(iii) gene and a jetC^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetB^(iii) gene and a jetD^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetC^(iii) gene and a jetD^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(iii) gene, a jet^(iii)B gene, and a jetC^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(iii) gene, a jetB^(iii) gene, and a jetD^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetA^(iii) gene, a jetC^(iii) gene, and a jetD^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD^(iii) gene, a jetB^(iii) gene, and a jetC^(iii) gene. In some embodiments, a construct comprises a nucleic acid comprising a jetD^(iii) gene, a jetB^(iii) gene, a jetC^(iii) gene, and a jetA^(iii) gene.

In some embodiments, components of a Wadjet defense system (Defense System Xa, Xb, or Xc) may comprise a nucleic acid encoding 1, 2, 3, or 4 polypeptide components of the Wadjet defense system. For example, in some embodiments, a construct comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively and a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively and a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively and a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively, a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively, and a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively, and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, a JetC polypeptide, and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a construct comprises a nucleic acid encoding a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively, a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively, and a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively.

In some embodiments, the components making up a functional Wadjet Type I anti-plasmid defense system comprise a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, each encoded by a jetA, a jetB, a jetC, and a jetD gene, respectively.

In some embodiments, the components making up a functional Wadjet Type II anti-plasmid defense system comprise a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, and a JetD^(ii) polypeptide, each encoded by a jetA^(ii), a jetB^(ii), a jetC^(ii), and a jetD^(ii) gene, respectively

In some embodiments, the components making up a functional Wadjet Type III anti-plasmid defense system comprise a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, and a JetD^(iii) polypeptide, each encoded by a jetA^(iii), a jetB^(iii), a jetC^(iii), and a jetD^(iii) gene, respectively

In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively and a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively and a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively, a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively, and a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively, a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively, and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetA or a JetA^(ii) or a JetA^(iii) polypeptide, respectively, a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively, and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively and a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetB or a JetB^(ii) or a JetB^(iii) polypeptide, respectively and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprise a nucleic acid encoding a JetC or a JetC^(ii) or a JetC^(iii) polypeptide, respectively and a JetD or a JetD^(ii) or a JetD^(iii) polypeptide, respectively.

In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetA, jetA^(ii), or jetA^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetA, jetA^(ii), or jetA^(iii) gene, respectively and a jetB, jetB^(ii), or jetB^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetA, jetA^(ii), or jetA^(iii) gene, respectively and a jetC, jetC^(ii), or jetC^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetA, jetA^(ii), or jetA^(iii) gene, respectively and a jetD, jetD^(ii), or jetD^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetA, jetA^(ii), or jetA^(iii) gene, respectively, a jetB, jetB^(ii), or jetB^(iii) gene, respectively, and a jetC, jetC^(ii), or jetC^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetA, jetA^(ii), or jetA^(iii) gene, respectively, a jetB, jetB^(ii), or jetB^(iii) gene, respectively, and a jetD, jetD^(ii), or jetD^(iii) gene, respectively gene. In some embodiments, a Wadjet defense system having an anti-plasmid activity comprise a nucleic acid comprising a jetA, jetA^(ii), or jetA^(iii) gene, respectively, a jetC, jetC^(ii), or jetC^(iii) gene, respectively, and a jetD gene. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetB, jetB^(ii), or jetB^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetB, jetB^(ii), or jetB^(iii) gene, respectively and a jetC, jetC^(ii), or jetC^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity comprise a nucleic acid comprising a jetB, jetB^(ii), or jetB^(iii) gene, respectively and a jetD, jetD^(ii), or jetD^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetB, jetB^(ii), or jetB^(iii) gene, respectively, a jetD, jetD^(ii), or jetD^(iii) gene, respectively, and a jetC, jetC^(ii), or jetC^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetC, jetC^(ii), or jetC^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetC, jetC^(ii), or jetC^(iii) gene, respectively and a jetD, jetD^(ii), or jetD^(iii) gene, respectively. In some embodiments, a Wadjet defense system having an anti-plasmid activity (Defense System Xa, Xb, or Xc) comprises a nucleic acid comprising a jetD, jetD^(ii), or jetD^(iii) gene, respectively.

In some embodiments, a Wadjet Type I defense system having an anti-plasmid activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is JetA, JetB, JetC, and JetD. In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-plasmid activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-plasmid activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random comprising any order of JetA, JetB, JetC, and JetD. In some embodiments, for example but not limited to, the order is JetB, JetC, JetD, and JetA; or JetC, JetD, JetA, and JetB; or JetD, JetA, JetB, and JetC.

In some embodiments, a Wadjet Type I defense system having an anti-plasmid activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is jetA, jetB, jetC, and jetD. In some embodiment, the 5′ to 3′ order of genes in a Wadjet defense system is not jetA, jetB, jetC, and jetD. In some embodiments the 5′ to 3′ order of genes does not affect the anti-plasmid activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-plasmid activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of jetA, jetB, jetC, and jetD. In some embodiments, for example but not limited to, the order is jetB, jetC, jetD, and jetA; or jetC, jetD, jetA, and jetB; or jetD, jetA, jetB, and jetC.

In some embodiments, a Wadjet Type II defense system having an anti-plasmid activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is JetA^(ii), JetB^(ii), JetC^(ii), and JetD^(ii). In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-plasmid activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-plasmid activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random comprising any order of JetA^(ii), JetB^(ii), JetC^(ii), and JetD^(ii). In some embodiments, for example but not limited to, the order is JetB^(ii), JetC^(ii), JetD^(ii), and JetA^(ii); or JetC^(ii), JetD^(ii), JetA^(ii), and JetB^(ii); or JetD^(ii), JetA^(ii), JetB^(ii), and JetC^(ii).

In some embodiments, a Wadjet Type II defense system having an anti-plasmid activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is jetA^(ii), jetB^(ii), jetC^(ii), and jetD^(ii). In some embodiment, the 5′ to 3′ order of genes in a Wadjet defense system is not jetA^(ii), jetB^(ii), jetC^(ii), and jetD^(ii). In some embodiments the 5′ to 3′ order of genes does not affect the anti-plasmid activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-plasmid activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of jetA^(ii), jetB^(ii), jetC^(ii), and jetD^(ii). In some embodiments, for example but not limited to, the order is jetB^(ii), jetC^(ii), jetD^(ii), and jetA^(ii); or jetC^(ii), jetD^(ii), jetA^(ii), and jetB^(ii); or jetD^(ii), jetA^(ii), jetB^(ii), and jetC^(ii).

In some embodiments, a Wadjet Type III defense system having an anti-plasmid activity comprises a nucleic acid construct comprising nucleic acids encoding polypeptides in a set order. In one embodiment, the 5′ to 3′ order of polypeptides encoded is JetA^(iii), JetB^(iii), JetC^(iii), and JetD^(iii). In some embodiments the 5′ to 3′ order of polypeptides does not affect the anti-plasmid activity. In some embodiments the 5′ to 3′ order of polypeptides does affect the anti-plasmid activity.

In some embodiments, the 5′ to 3′ order of polypeptides is random comprising any order of JetA^(iii), JetB^(iii), JetC^(iii), and JetD^(iii). In some embodiments, for example but not limited to, the order is JetB^(iii), JetC^(iii), JetD^(iii), and JetA^(iii); or JetC^(iii), JetD^(iii), JetA^(iii), and JetB^(iii); or JetD^(iii), JetA^(iii), JetB^(iii), and JetC^(iii).

In some embodiments, a Wadjet Type I defense system having an anti-plasmid activity comprises a nucleic acid construct comprising genes in a set order. In some embodiment, the 5′ to 3′ order of genes is jetA^(iii), jetB^(iii), jetC^(iii), and jetD^(iii). In some embodiment, the 5′ to 3′ order of genes in a Wadjet defense system is not jetA^(iii), jetB^(iii), jetC^(iii), and jetD^(iii). In some embodiments the 5′ to 3′ order of genes does not affect the anti-plasmid activity. In some embodiments the 5′ to 3′ order of genes does affect the anti-plasmid activity.

In some embodiments, the 5′ to 3′ order of genes is random, for example any order of jetA^(iii), jetB^(iii), jetC^(iii), and jetD^(iii). In some embodiments, for example but not limited to, the order is jetB^(iii), jetC^(iii), jetD^(iii), and jetA^(iii); or jetC^(iii), jetD^(iii), jetA^(iii), and jetB^(iii); or jetD^(iii), jetA^(iii), jetB^(iii), and jetC^(iii).

In some embodiments, the Wadjet Type I system (Defense System Xa) composition and order is as shown in FIG. 7B. In some embodiments, the Wadjet Type II system (Defense System Xb) composition and order is as shown in FIG. 7B. In some embodiments, the Wadjet Type III system (Defense System Xc) composition and order is as shown in FIG. 7B.

In some embodiments, a Wadjet Type I defense system having an anti-plasmid activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 11). In some embodiments, a Wadjet Type II defense system having an anti-plasmid activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 11). In some embodiments, a Wadjet Type III defense system having an anti-plasmid activity originates from a microbial genome, for example a bacterial or an archaeal genome (Table 11).

A skilled artisan would appreciate that a Wadjet system (Defense Xa, Xb, Xc) is not present in the majority of bacteria and or archaea species.

In some embodiments, a functional Wadjet defense system (Defense System Xa, Xb, or Xc) comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different microbial species. For example, the source of the nucleic acid sequence encoding a JetA, a JetA^(ii), or a JetA^(iii) polypeptides, respectively polypeptide may be one microbial species, the source of the nucleic acid sequence encoding a JetB, a JetB^(ii), or a JetB^(iii) polypeptides, respectively may be a different microbial species, the source of the nucleic acid sequence encoding a JetC, a JetC^(ii), or a JetC^(iii) polypeptides, respectively may be yet a different microbial species, and the source of the nucleic acid sequence encoding a JetD, a JetD^(ii), or a JetD^(iii) polypeptides, respectively may be still a different microbial species. In some embodiments, a functional Wadjet defense system (Defense System Xa, Xb, or Xc) comprises a non-naturally occurring combination of polypeptide components. In some embodiments, a functional Wadjet defense system (Defense System Xa, Xb, or Xc) comprises a combination of at least two polypeptides that do not naturally occur together. In some embodiments, a functional Wadjet defense system (Defense System Xa, Xb, or Xc) comprises a combination of at least three polypeptides that do not naturally occur together. In some embodiments, a functional Wadjet defense system (Defense System Xa, Xb, or Xc) comprises a combination of four polypeptides that do not naturally occur together.

In some embodiments, a functional Wadjet defense system (Defense System Xa, Xb, or Xc) comprises a construct comprising nucleic acid sequences encoding polypeptides, wherein the nucleic acid sequence encoding each polypeptide may originate from a different bacterial species. For example, the source of the nucleic acid sequence encoding a JetA, a JetA^(ii), or a JetA^(iii) polypeptides, respectively may be one bacterial species, the source of the nucleic acid sequence encoding a JetB, a JetB^(ii), or a JetB^(iii) polypeptides, respectively may be a different bacterial species, the source of the nucleic acid sequence encoding a JetC, a JetC^(ii), or a JetC^(iii) polypeptides, respectively may be yet a different bacterial species, and the source of the nucleic acid sequence encoding a JetD, a JetD^(ii), or a JetD^(iii) polypeptides, respectively may be still a different bacterial species.

In some embodiments, the source of the nucleic acid encoding a JetA, a JetA^(ii), or a JetA^(iii) polypeptides, respectively, a JetB, a JetB^(ii), or a JetB^(iii) polypeptides, respectively, a JetC, a JetC^(ii), or a JetC^(iii) polypeptides, respectively, and a JetD, a JetD^(ii), or a JetD^(iii) polypeptides, respectively is the same. In some embodiments, the source of the nucleic acid encoding a JetA, a JetA^(ii), or a JetA^(iii) polypeptides, respectively, a JetB, a JetB^(ii), or a JetB^(iii) polypeptides, respectively, a JetC, a JetC^(ii), or a JetC^(iii) polypeptides, respectively, and a JetD, a JetD^(ii), or a JetD^(iii) polypeptides, respectively is the not the same. In some embodiments, the source of some of the components is the same, while the source of other components is not the same. In some embodiments, the source of the nucleic acid sequence of some of the components is same and the source of other of the components is different. For example, but not limited to the source of any of the nucleic acid sequences encoding JetA, a JetA^(ii), or a JetA^(iii) polypeptides, respectively; JetB, a JetB^(ii), or a JetB^(iii) polypeptides, respectively; JetC, a JetC^(ii), or a JetC^(iii) polypeptides, respectively; and a JetD, a JetD^(ii), or a JetD^(iii) polypeptides, respectively may be the same or different, having any combination thereof. In some embodiments, the source of the nucleic acid sequence of any of the components of a Wadjet defense system (Defense Systems Xa, Xb, or Xc) comprises any of the species listed in Table 11.

In some embodiments, a Wadjet defense system (Defense Systems Xa, Xb, or Xc) having an anti-plasmid activity comprises a nucleic acid construct comprising non-coding regions between the nucleic acid sequences encoding the polypeptides. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence not naturally occurring in the microbial species of origin. In some embodiments, the non-coding regions between the nucleic acid sequences comprises nucleic acid sequence is the naturally occurring in the microbial species of origin.

In some embodiments, a Wadjet system disclosed herein (Defense Systems Xa, Xb, or Xc) comprises a multi-gene phage resistance system broadly distributed in microbial genomes. According to some embodiments, the Wadjet system (Defense Systems Xa, Xb, or Xc) components are located in a gene cluster in a microbial cell genome. According to some embodiments, the Wadjet system (Defense Systems Xa, Xb, or Xc) components are located in close proximity (e.g. positioned within 20 genes, 10 genes, 5 genes or less one from the other) in a genome of a prokaryotic cell. According to some embodiments the prokaryotic cell expresses an endogenous Wadjet defense system (Defense Systems Xa, Xb, or Xc). According to some embodiments, the prokaryotic cell expresses an endogenous functional Wadjet defense system (Defense Systems Xa, Xb, or Xc). According to some embodiments, the species of prokaryotic cell is selected from the group consisting of the species listed in Table 11. According to some embodiments, a prokaryotic cell expresses a non-endogenous Wadjet defense system (Defense Systems Xa, Xb, or Xc). According to some embodiments, a prokaryotic cell expresses a non-endogenous functional Wadjet defense system (Defense Systems Xa, Xb, or Xc). According to some embodiments, the species of prokaryotic cell expressing a non-endogenous functional Wadjet defense system (Defense Systems Xa, Xb, or Xc) is selected from the group consisting of the species listed in Table 11.

In some embodiments, Wadjet Type I defense system components comprise JetA, JetB, JetC and JetD polypeptides. In some embodiments, Wadjet Type I defense system components comprise functional portions of JetA, JetB, JetC and JetD polypeptides. In some embodiments, the Wadjet Type I defense system components are encoded by jetA, jetB, jetC and jetD genes. In some embodiments, Wadjet Type I defense system components comprise JetB, JetC and JetD polypeptides.

In some embodiments, Wadjet Type II defense system components comprise JetA^(ii), JetB^(ii), JetC^(ii) and JetD^(ii) polypeptides. In some embodiments, Wadjet Type II defense system components comprise functional portions of JetA^(ii), JetB^(ii), JetC^(ii) and JetD^(ii) polypeptides. In some embodiments, the Wadjet Type II defense system components are encoded by jetA^(ii), jetB^(ii), jetC^(ii) and jetD^(ii) genes.

In some embodiments, Wadjet Type III defense system components comprise JetA^(iii), JetB^(iii), JetC^(iii) and JetD^(iii) polypeptides. In some embodiments, Wadjet Type III defense system components comprise functional portions of JetA^(iii), JetB^(iii), JetC^(iii) and JetD^(iii) polypeptides. In some embodiments, the Wadjet Type III defense system components are encoded by jetA^(iii), jetB^(iii), jetC^(iii) and jetD^(iii) genes.

Non-limiting embodiments of endogenous Wadjet systems (Defense Systems Xa, Xb, and Xc) and the respective location of their components are provided in Table 11 herein.

In some embodiments, the components of a Wadjet system may be identified by the presence of similar domains present within each component. In some embodiments, domains comprise pfam domains and or clusters of orthologous groups (COG) domains.

In some embodiments, the term “JetA” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the jetA gene, comprising variants jetA, jetA^(ii) and jetA^(iii), associated with Defense Systems Xa, Xb, and Xc, respectively. In some embodiments, the terms “jetA”, “jetA^(ii)” and “jetA^(iii)”, may be used interchangeably. In some embodiments, the term “JetA” refers to a JetA polypeptide or a JetA^(ii) polypeptide or a JetA^(iii) polypeptide (FIG. 7B). In some embodiments, the terms JetA, JetA^(ii), and JetA^(iii) may be used interchangeably.

A skilled artisan would recognize that each Defense System X (Xa, Xb, and Xc) comprises a JetA polypeptide (A), a JetB polypeptide (B), a Jet C polypeptide (C), and a JetD polypeptide (C), wherein the polypeptides are encoded by a jetA gene, a jetB gene, a jetC gene, or a jetD gene, and variants thereof.

In some embodiments, the jetA gene encodes a polypeptide comprising a pfam11855 domain. In some embodiments, the jetA gene encodes a polypeptide comprising a DUF3375 domain. In some embodiments, the jetA gene encodes a polypeptide comprising a pfam09660 domain. In some embodiments, the jetA gene encodes a polypeptide comprising a DUF2397 domain. In some embodiments, the jetA gene encodes a polypeptide comprising no known domain. In some embodiments, the jetA gene encodes a polypeptide comprising a pfam11855 domain, or a DUF3375 domain, or a pfam09660 domain, or a DUF2397 domain, or any combination thereof. In some embodiments, the jetA gene encodes a polypeptide comprising a pfam11855 domain and a DUF3375 domain. In some embodiments, a jetA gene encodes a polypeptide comprising a pfam09660 domain and a DUF2397 domain.

In some embodiments, the jetA gene encodes a polypeptide comprising a member of the MukF-like family. MukF appears to play a role in chromosome partitioning during cell division. MukF has been described as a member of the kleisin family, which includes proteins that commonly mediate the interaction between SMCs and other accessory proteins.

In some embodiments, JetA polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a JetB, JetC, and or JetD polypeptide in a genome of a prokaryotic cell. In some embodiments, JetA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a JetB, JetC, and or JetD polypeptide in a genome of a prokaryotic cell. In some embodiments, JetA polypeptide is encoded by a gene positioned within 5 genes upstream (5′) and downstream (3′) to a gene encoding a JetB, JetC, and or JetD polypeptide, or any combination thereof, in a genome of a prokaryotic cell.

In some embodiments, JetA and JetB are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetA and JetB are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetA, JetB, and JetC are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetA, JetB, and JetC are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetA, JetB, JetC, and JetD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetA, JetB, JetC, and JetD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetD, JetA JetB, and JetC are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetD, JetA, JetB, and JetC are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, jetA and jetB genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetA, and jetB, genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetA, jetB, and jetC genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetA, jetB, and jetC genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetA, jetB, jetC, and jetD genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetA, jetB, jetC, and jetD genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetD, jetA, jetB, and jetC genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetD, jetD, jetB, and jetC genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a JetA polypeptide is about 488 amino acids long (median gene size).

In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80% homology to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, a homolog of a JetA polypeptide comprises a member of the MukF-like family. In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80% identity to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises a homolog of a polypeptide having the amino acid sequences set forth in the polypeptides referenced in Table 11, rows 2-3174, columns J and K.

In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K.

In some embodiments, an JetA polypeptide comprises a MukF-like domain. In some embodiments, an JetA polypeptide comprises a MukF-like activity.

In some embodiments, the JetA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, column J and K. In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K. In some embodiments, the JetA polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns J and K.

In some embodiments, the JetA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L. In some embodiments, the JetA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J. and L In some embodiments, the JetA polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L. In some embodiments, the JetA polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L. In some embodiments, the JetA polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L.

In some embodiments, the nucleic acid sequence of a jetA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L. In some embodiments, the jetA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L. In some embodiments, the nucleic acid sequence of a jetA gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L. In some embodiments, the jetA gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L. In some embodiments, the nucleic acid sequence of a jetA gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns J and L.

In some embodiments, the term “JetB” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the jetB gene, comprising variants jetB, jetB^(ii) and jetB^(iii), associated with Defense Systems Xa, Xb, and Xc, respectively. In some embodiments, the terms “jetB”, “jetB^(ii)” and “jetB^(iii)”, may be used interchangeably. In some embodiments, the term “JetB” refers to a JetB polypeptide or a JetB^(ii) polypeptide or a JetB^(iii) polypeptide (FIG. 7B). In some embodiments, the terms JetB, JetB^(ii), and JetB^(iii) may be used interchangeably.

In some embodiments, the product of the jetB gene comprises a pfam13835 domain. In some embodiments, the product of the jetB gene comprises a DUF4194 domain. In some embodiments, the product of the jetB gene comprises a pfam09661 domain. In some embodiments, the product of the jetB gene comprises a DUF2398 domain. In some embodiments, the product of the jetB gene comprises a pfam13835 domain and a DUF4194 domain. In some embodiments, the product of the jetB gene comprises a pfam09661 domain and a DUF2398 domain. In some embodiments, the product of the jetB gene comprises a pfam13835 domain, or a DUF4194 domain, or pfam09661 domain, or a DUF2398 domain, or any combination thereof. In some embodiments, the product of the jetB gene comprises a pfam13835 domain, a DUF4194 domain, a pfam09661 domain, and a DUF2398 domain. In some embodiments, the jetB gene encodes a member of MukE-like family.

In some embodiments, JetB polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding a JetA, a JetC, and or a JetD polypeptide in a genome of a prokaryotic cell. In some embodiments, JetB polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding a JetA, JetC, and or a JetD polypeptide in a genome of a prokaryotic cell.

In some embodiments, JetB and JetC are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments JetB and JetC are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetB and JetD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments JetB and JetD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetB and JetA are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments JetB and JetA are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetB, JetC, and JetD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetB, JetC, and JetD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, JetB polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding jetA, jetC, and or jetD, in a genome of a prokaryotic cell. In some embodiments, JetB polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding jetA in a genome of a prokaryotic cell. In some embodiments, JetB polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding jetD in a genome of a prokaryotic cell. In some embodiments, JetB polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding jetC in a genome of a prokaryotic cell.

In some embodiments, a JetB polypeptide is about 247 amino acids long (median gene size).

In some embodiments, the JetB polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, the JetB polypeptide comprises an amino acid sequence having at least 80% homology to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, a homolog of the JetB polypeptide comprises a MukE-like family member. In some embodiments, the JetB polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, the JetB polypeptide comprises an amino acid sequence having at least 80% identity to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, a JetB homolog comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O.

In some embodiments, a JetB polypeptide homolog comprises a MukE-like domain. In some embodiments, a JetB polypeptide homolog comprises a MukE-like activity.

In some embodiments, the JetB polypeptide comprises the amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, the JetB polypeptide comprises the amino acid sequence having at least 80% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O.

In some embodiments, the JetB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, the JetB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, the JetB polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, the JetB polypeptide comprises the amino acid sequence having at least 80%, 85%, 90%, 95% identity within similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O. In some embodiments, the JetB polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns N and O.

In some embodiments, the JetB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the JetB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the JetB polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the JetB polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the JetB polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P.

In some embodiments, the nucleic acid sequence of a jetB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the jetB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the nucleic acid sequence of a jetB gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the jetB gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P. In some embodiments, the nucleic acid sequence of a jetB gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns N and P.

In some embodiments, the term “JetC” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the jetC gene, comprising variants jetC, jetC^(ii) and jetC^(iii), associated with Defense Systems Xa, Xb, and Xc, respectively. In some embodiments, the terms “jetC”, “jetC^(ii)” and “jetC^(iii)”, may be used interchangeably. In some embodiments, the term “JetC” refers to a JetC polypeptide or a JetC^(ii) polypeptide or a JetC^(iii) polypeptide (FIG. 7B). In some embodiments, the terms JetC, JetC^(ii), and JetC^(iii) may be used interchangeably.

In some embodiments, the product of a jetC gene comprises a pfam13555 domain. In some embodiments, the product of a jetC gene comprises a pfam13558 domain. In some embodiments, the product of a jetC gene comprises a COG4913 domain. In some embodiments, the product of a jetC gene comprises a COG1196 domain. In some embodiments, the product of a jetC gene comprises a pfam1555 domain or a pfam13558 domain or a COG4913 domain, or a COG1196 domain, or a combination thereof. In some embodiments, the product of a jetC gene comprises a pfam1555 domain and a pfam13558 domain. In some embodiments, the product of a jetC gene comprises a pfam1555 domain, a pfam13558 domain, and a COG4913 domain. In some embodiments, the product of a jetC gene comprises a pfam1555 domain and a COG4913 domain. In some embodiments, the product of a jetC gene comprises a pfam13558 domain and a COG4913 domain. In some embodiments, the product of a jetC gene comprises a MukB-like family member. MukB appears to be functionally related to the structural maintenance of chromosomes (SMC) proteins. MukB is also known as the E. coli condesin, a structural maintenance of chromosomes (SMC)-like protein, which forms a complex with MukE and the kleisin MukF. MukB is known to be able to mediate knotting of a DNA ring, an intramolecular reaction. In some embodiments, the product of a jetC gene comprises an ATP binding domain. In some embodiments, the product of a jetC gene comprises an exonuclease SbcC domain. In some embodiments, the product of a jetC gene comprises a MukB-like family member, or an ATP binding domain or an exonuclease SbcC domain, or a combination thereof. In some embodiments, the product of a jetC gene comprises a MukB-like family member and an ATP binding domain. In some embodiments, the product of a jetC gene comprises a MukB-like family member and an exonuclease SbcC domain. In some embodiments, the product of a jetC gene comprises an ATP binding domain and an exonuclease SbcC domain. In some embodiments, the product of a jetC gene comprises a MukB-like family member, an ATP binding domain and an exonuclease SbcC domain.

In some embodiments, JetC polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding JetA, and/or JetB and/or JetD in a genome of a prokaryotic cell. In some embodiments, JetC polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding JetA, and/or JetB and/or JetD in a genome of a prokaryotic cell. In some embodiments, JetC polypeptide is encoded by a gene positioned within 5 genes upstream and downstream to a gene encoding JetA, and/or JetB and/or JetD in a genome of a prokaryotic cell.

In some embodiments, JetC and JetD are encoded by genes positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, JetC and JetD are encoded by genes positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, jetC and jetD genes are positioned sequentially 5′ to 3′ in a genome of a prokaryotic cell. In some embodiments, jetC and jetD genes are positioned contiguously 5′ to 3′ in a genome of a prokaryotic cell.

In some embodiments, a JetC polypeptide is about 1476 amino acids long (median gene size).

In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S. In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S. In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80% homology to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S. In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80% identity to similar domain regions a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S. In some embodiments, an JetC homolog comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S.

In some embodiments, an JetC polypeptide homolog comprises an ATP binding domain. In some embodiments, an JetC polypeptide homolog comprises an exonuclease SbcC activity. In some embodiments, an JetC polypeptide homolog comprises an MukB like activity.

In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of SEQ ID NOs: In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S. In some embodiments, a JetC homolog comprises an ATP binding domain. In some embodiments, a JetC homolog comprises an exonuclease SbcC activity. In some embodiments, a JetC homolog comprises a member of the MukB-like family. In some embodiments, a JetC homolog comprises an ATP binding domain, or an exonuclease SbcC activity, or a member of the MukB-like family, or any combination thereof. In some embodiments, a JetC homolog comprises an ATP binding domain and an exonuclease SbcC activity. In some embodiments, a JetC homolog comprises an ATP binding domain and a member of the MukB-like family. In some embodiments, a JetC homolog comprises an exonuclease SbcC activity and a member of the MukB-like family. In some embodiments, a JetC homolog comprises an ATP binding domain, and an exonuclease SbcC activity, and a member of the MukB-like family.

In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S. In some embodiments, the JetC polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S. In some embodiments, the JetC polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns R and S.

In some embodiments, the JetC polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T. In some embodiments, the JetC polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T. In some embodiments, the JetC polypeptide comprises an amino acid sequence encoded by a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T. In some embodiments, the JetC polypeptide comprises the amino acid sequence encoded by a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within similar domain regions within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T. In some embodiments, the JetC polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T.

In some embodiments, the nucleic acid sequence of a jetC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, column N. In some embodiments, the jetC gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% homology within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T. In some embodiments, the nucleic acid sequence of a jetC gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T. In some embodiments, the jetC gene comprises a nucleic acid sequence having at least 80%, 85%, 90%, 95% identity within encoded similar domain regions in comparison with nucleotide sequence encoding these domain within a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T. In some embodiments, the nucleic acid sequence of a jetC gene comprises a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns R and T.

In some embodiments, the jetC gene homolog encodes a polypeptide comprising an ATP binding domain. In some embodiments, a jetC gene homolog encodes a polypeptide comprising an exonuclease SbcC activity. In some embodiments, a jetC gene homolog encodes a polypeptide comprising a member of the MukB-like family. In some embodiments, a JetC homolog jetC gene homolog encodes a polypeptide comprising ATP binding domain, or an exonuclease SbcC activity, or a member of the MukB-like family, or any combination thereof. In some embodiments, a jetC gene homolog encodes a polypeptide comprising an ATP binding domain and an exonuclease SbcC activity. In some embodiments, a jetC gene homolog encodes a polypeptide comprising an ATP binding domain and a member of the MukB-like family. In some embodiments, a jetC gene homolog encodes a polypeptide comprising an exonuclease SbcC activity and a member of the MukB-like family. In some embodiments, a jetC gene homolog encodes a polypeptide comprising an ATP binding domain, and an exonuclease SbcC activity, and a member of the MukB-like family.

In some embodiments, the term “JetD” refers to the polynucleotide or expression product e.g., the polypeptide encoded by the jetD gene, comprising variants jetD, jetD^(ii) and jetD^(iii), associated with Defense Systems Xa, Xb, and Xc, respectively. In some embodiments, the terms “jetD”, “jetD^(ii)” and “jetD^(iii)”, may be used interchangeably. In some embodiments, the term “JetD” refers to a JetD polypeptide or a JetD^(ii) polypeptide or a JetD^(iii) polypeptide (FIG. 7B). In some embodiments, the terms JetD, JetD^(ii), and JetD^(iii) may be used interchangeably.

In some embodiments, the product of the jetD gene comprises a pfam11795 domain. In some embodiments, the product of the jetD gene comprises a DUF3322 domain. In some embodiments, the product of the jetD gene comprises a pfam09983 domain. In some embodiments, the product of the jetD gene comprises a DUF2220 domain. In some embodiments, the product of the jetD gene comprises a pfam11796 domain. In some embodiments, the product of the jetD gene comprises a DUF3323 domain. In some embodiments, the product of the jetD gene comprises a pfam09664 domain. In some embodiments, the product of the jetD gene comprises a DUF2399 domain. In some embodiments, the product of the jetD gene comprises a COG4924 domain. In some embodiments, the product of the jetD gene comprises a pfam11795 domain, or a DUF3322 domain, or a pfam09983 domain, or a DUF2220 domain, or a pfam11796 domain, or a DUF3323 domain, or a pfam09664 domain, or DUF2399 domain, or a COG4924 domain, or any combination thereof. In some embodiments, the product of the jetD gene comprises a pfam11795 domain and a DUF3322 domain. In some embodiments, the product of the jetD gene comprises a pfam09983 and a DUF2220 domain. In some embodiments, the product of the jetD gene comprises a pfam11796 domain and a DUF3323 domain. In some embodiments, the product of the jetD gene comprises a pfam09664 domain and DUF2399 domain. In some embodiments, the product of the jetD gene comprises a pfam11796 domain and a DUF3323 domain, and a pfam09664 domain, and a DUF2399 domain. In some embodiments, the product of the jetD gene comprises a pfam11795 domain and a DUF3322 domain, and a pfam09983 domain, and a DUF2220 domain. In some embodiments, the product of the jetD gene comprises a pfam11795 domain and a DUF3322 domain, and a pfam09983 domain, and a DUF2220 domain, and a COG4924 domain.

In some embodiments, a JetD polypeptide comprises a pfam11795 domain. In some embodiments, a JetD polypeptide comprises a DUF3322 domain. In some embodiments, a JetD polypeptide comprises a pfam09983 domain. In some embodiments, a JetD polypeptide comprises a DUF2220 domain. In some embodiments, a JetD polypeptide comprises a pfam11796 domain. In some embodiments, a JetD polypeptide comprises a DUF3323 domain. In some embodiments, a JetD polypeptide comprises a pfam09664 domain. In some embodiments, a JetD polypeptide comprises a DUF2399 domain. In some embodiments, a JetD polypeptide comprises a COG4924 domain. In some embodiments, a JetD polypeptide comprises a pfam11795 domain, or a DUF3322 domain, or a pfam09983 domain, or a DUF2220 domain, or a pfam11796 domain, or a DUF3323 domain, or a pfam09664 domain, or DUF2399 domain, or a COG4924 domain, or any combination thereof. In some embodiments, a JetD polypeptide comprises a pfam11795 domain and a DUF3322 domain. In some embodiments, a JetD polypeptide comprises a pfam09983 and a DUF2220 domain. In some embodiments, a JetD polypeptide comprises a pfam11796 domain and a DUF3323 domain. In some embodiments, a JetD polypeptide comprises a pfam09664 domain and DUF2399 domain. In some embodiments, a JetD polypeptide comprises a pfam11796 domain and a DUF3323 domain, and a pfam09664 domain, and a DUF2399 domain. In some embodiments, a JetD polypeptide comprises a pfam11795 domain and a DUF3322 domain, and a pfam09983 domain, and a DUF2220 domain. In some embodiments, a JetD polypeptide comprises a pfam11795 domain and a DUF3322 domain, and a pfam09983 domain, and a DUF2220 domain, and a COG4924 domain.

In some embodiments, a JetD polypeptide is encoded by a gene positioned within 5-60 genes of a gene encoding JetA, and/or JetB and/or JetC in a genome of a prokaryotic cell. In some embodiments, a JetD polypeptide is encoded by a gene positioned within 5 genes upstream (5′) or downstream (3′) to a gene encoding JetA, and/or JetB and/or JetC in a genome of a prokaryotic cell. In some embodiments, JetD polypeptide is encoded by a gene positioned within 5 genes upstream or downstream to a gene encoding JetA, and/or JetB and JetC in a genome of a prokaryotic cell.

In some embodiments, a JetD polypeptide is about 347 amino acids long (median gene size).

In some embodiments, the JetD polypeptide comprises an amino acid sequence having at least 80% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W. In some embodiments, the JetD polypeptide comprises an amino acid sequence having at least 80% homology to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W. In some embodiments, a JetD polypeptide homologue comprises a topoisomerase IV/VI activity. In some embodiments, the JetD polypeptide comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W. In some embodiments, the JetD polypeptide comprises an amino acid sequence having at least 80% identity to similar domain regions within a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W. In some embodiments, an JetD homolog comprises an amino acid sequence having at least 80% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W.

In some embodiments, a JetD polypeptide homolog comprises a topoisomerase IV/VI domain. In some embodiments, a JetD polypeptide homolog comprises a topoisomerase IV/VI structural domain. In some embodiments, a JetD polypeptide homolog comprises a topoisomerase IV/VI activity.

In some embodiments, the JetD polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, at least 95% homology to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W. In some embodiments, the JetD polypeptide comprises an amino acid sequence having at least 80%, at least 85%, at least 90%, at least 95% identity to a sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W. In some embodiments, the JetD polypeptide comprises an amino acid sequence selected from the group consisting of the polypeptides referenced in Table 11, rows 2-3174, columns V and W.

In some embodiments, the JetD polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns V and X. In some embodiments, the JetD polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns V and X. In some embodiments, the JetD polypeptide comprises an amino acid sequence encoded from a nucleic acid sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns V and X.

In some embodiments, the jetD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% homology to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns V and X. In some embodiments, a mksG gene homolog encodes a polypeptide comprising a topoisomerase IV/VI activity. In some embodiments, the jetD gene comprises a nucleic acid sequence having at least 80%, at least 85%, at least 90%, or at least 95% identity to a sequence selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns V and X. In some embodiments, the nucleic acid sequence of the jetD gene is selected from the group consisting of the polynucleotides referenced in Table 11, rows 2-3174, columns V and X.

A skilled artisan would appreciate that the terms a “functional portion of a Defense System X component” or “functional fragment of Defense System X component” or “functional portion of a Wadjet defense system component” or “functional fragment of Wadjet defense system component” refers to a functional portion of a Wadjet polynucleotide or polypeptide, as disclosed herein, which expression is sufficient to elicit an anti-plasmid transformation efficiency activity alone or in combination with the at least one of the other Wadjet polynucleotides or polypeptides disclosed herein or functional portions thereof.

The terms “JetA”, “JetB”, “JetC”, “JetD”, “JetA^(ii)”, “JetB^(ii)”, “JetC^(ii)”, “JetD^(ii)”, jetA^(iii)”, “jetB^(iii)”, “jetC^(iii)” and “jetD^(iii)’ also refer to functional homologs, which exhibit the desired activity (i.e., conferring decreased efficiency of plasmid transformation). Such homologs can be, for example, at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polypeptide sequences referenced in Table 11 rows 2-3174 columns J and K, N and O, R and S and V and W, respectively, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identical or homologous to the polynucleotide sequences referenced in Table 11 rows 2-3174 columns J and L, N and P, R and T and V and X. In some embodiments, such homologs comprise at least 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% homology or identity within similar domain regions of the polypeptide sequences referenced in Table 11 rows 2-3174 columns J and K, N and O, R and S and V and W, or 80%, at least 81%, at least 82%, at least 83%, at least 84%, at least 85%, at least 86%, at least 87%, at least 88%, at least 89%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% or 100% identity or homology within nucleotide sequences encoding similar domain regions to the polynucleotide sequences referenced in Table 11 rows 2-3174 columns J and L, N and P, R and T and V and X.

Table 11 presents embodiments of components of Defense System X (Xa, Xb, and Xc) that may be found in a diverse array of bacteria and archaea genomes (referenced in Table 18). Table 11 presents embodiments of nucleic acid sequences encoding gene cassettes of Defense System X (Xa, Xb, and Xc; referenced in Table 18).

Defense System Components, Nucleic Acid Sequences Thereof, and Amino Acid Sequences Thereof

Defense System components, nucleic acid sequences thereof, amino acid sequences thereof, and gene cassette nucleotide sequences thereof are presented below in Table 18.

TABLE 18 Defense Systems: Components and Gene Cassettes- polypeptide and nucleotide sequences thereof Com- Defense System ponent Composition Table References Defense System Ia ZorA polypeptides Table 8; Rows 2-1174; ZORYA Type I Column J “ZorA protein_accession” and Column K “PRT SEQ ID NO:” Defense System Ia ZorB polypeptides Table 8; Rows 2-1174; ZORYA Type I Column N “ZorB protein_accession” and Column O “PRT SEQ ID NO:” Defense System Ia ZorC polypeptides Table 8; Rows 2-1174; ZORYA Type I Column R “ZorC protein_accession” and Column S “PRT SEQ ID NO:” Defense System Ia ZorD polypeptides Table 8; Rows 2-1174; ZORYA Type I Column V “ZorD protein_accession” and Column W “PRT SEQ ID NO:” Defense System Ia zorA poly- Table 8; Rows 2-1174; ZORYA Type I nucleotides Column J “ZorA protein_accession” and Column L “DNA SEQ ID NO:” Defense System Ia zorB poly- Table 8; Rows 2-1174; ZORYA Type I nucleotides ColumnN “ZorB protein_accession” and Column P “DNA SEQ ID NO:” Defense System Ia zorC poly- Table 8; Rows 2-1174; ZORYA Type I nucleotides ColumnR “ZorC protein_accession” and Column T “DNA SEQ ID NO:” Defense System Ia zorD poly- Table 8; Rows 2-1174; ZORYA Type I nucleotides ColumnV “ZorD protein_accession” and Column X “DNA SEQ ID NO:” Defense System Ia Gene poly- Table 8; Rows 2-1174; ZORYA Type I Cassette nucleotides Column G “genomic_accession” with Start in Column AD “Genomic Start Point” and End in Column AE “Genomic End Point” Defense System Ib ZorA polypeptides Table 8; Rows 1175-1830; ZORYA Type II Column J “ZorA protein_accession” and Column K “PRT SEQ ID NO:” Defense System Ib ZorB polypeptides Table 8; Rows 1175-1830; ZORYA Type I ColumnN “ZorB protein_accession” and Column O “PRT SEQ ID NO:” Defense System Ib ZorE polypeptides Table 8; Rows 1175-1830; ZORYA Type I Column Z “ZorE protein_accession” and Column AA “PRT SEQ ID NO:” Defense System Ib zorA poly- Table 8; Rows 1175-1830; ZORYA Type I nucleotides Column J “ZorA protein_accession” and Column L “DNA SEQ ID NO:” Defense System Ib zorB poly- Table 8; Rows 1175-1830; ZORYA Type I nucleotides Column N “ZorB protein_accession” and Column P “DNA SEQ ID NO:” Defense System Ib zorE poly- Table 8; Rows 1175-1830; ZORYA Type I nucleotides ColumnZ “ZorE protein_accession” and Column AB “DNA SEQ ID NO:” Defense System Ib Gene poly- Table 8; Rows 1175-1830; ZORYA Type I Cassette nucleotides Column G “genomic_accession” with Start in Column AD “Genomic Start Point” and End in Column AE “Genomic End Point” Defense System II ThsA polypeptides Table 9; Rows 2-2100; Thoeris Column I “ThsA protein_accession” and Column J “PRT SEQ ID NO:” Defense System II ThsB polypeptides Table 9; Rows 2-2100; Thoeris Column M “ThsB^(i) protein_accession” and Column N “PRT SEQ ID NO:”, Column Q “ThsB^(ii) protein_accession” and Column R “PRT SEQ ID NO:”, Column U “ThsB^(iii) protein_accession” and Column V “PRT SEQ ID NO:”, Column Y “ThsB^(iv) protein_accession” and Column Z “PRT SEQ ID NO:”, and Column AC “ThsB^(v) protein_accession” and Column AD “PRT SEQ ID NO:” Defense System II thsA poly- Table 9; Rows 2-2100; Thoeris nucleotides Column I “ThsA protein_accession” and Column K “DNA SEQ ID NO:” Defense System II thsB poly- Table 9; Rows 2-2100; Thoeris nucleotides Column M “ThsB^(i) protein_accession” and Column O “DNA SEQ ID NO:”, Column Q “ThsB^(ii) protein_accession” and Column S “DNA SEQ ID NO:”, Column U “ThsB^(iii) protein_accession” and Column W “DNA SEQ ID NO:”, Column Y “ThsB^(iv) protein_accession” and Column AA “DNA SEQ ID NO:”, and Column AC “ThsB^(v) protein_accession” and Column AE “DNA SEQ ID NO:” Defense System II Gene poly- Table 9; Rows 2-2100; Thoeris Cassette nucleotides Column G “genomic_accession” with Start in Column AG “Genomic Start Point” and End in Column AH “Genomic End Point” Defense System DruA polypeptides Table 10; Rows 2-123; IIIa Druantia Column J “DruA Type I protein_accession” and Column K “PRT SEQ ID NO:” Defense System DruB polypeptides Table 10; Rows 2-123; IIIa Druantia Column N “DruB Type I protein_accession” and Column O “PRT SEQ ID NO:” Defense System DruC polypeptides Table 10; Rows 2-123; IIIa Druantia Column R “DruC Type I protein_accession” and Column S “PRT SEQ ID NO:” Defense System DruD polypeptides Table 10; Rows 2-123; IIIa Druantia Column V “DruD Type I protein_accession” and Column W “PRT SEQ ID NO:” Defense System DruE polypeptides Table 10; Rows 2-123; IIIa Druantia Column Z “DruE Type I protein_accession” and Column AA “PRT SEQ ID NO:” Defense System druA poly- Table 10; Rows 2-123; IIIa Druantia nucleotides Column J “DruA Type I protein_accession” and Column L “DNA SEQ ID NO:” Defense System druB poly- Table 10; Rows 2-123; IIIa Druantia nucleotides Column N “DruB Type I protein_accession” and Column P “DNA SEQ ID NO:” Defense System druC poly- Table 10; Rows 2-123; IIIa Druantia nucleotides Column R “DruC Type I protein_accession” and Column T “DNA SEQ ID NO:” Defense System druD poly- Table 10; Rows 2-123; IIIa Druantia nucleotides Column V “DruD Type I protein_accession” and Column X “DNA SEQ ID NO:” Defense System druE poly- Table 10; Rows 2-123; IIIa Druantia nucleotides Column Z “DruE Type I protein_accession” and Column AB “DNA SEQ ID NO:” Defense System Gene poly- Table 10; Rows 2-123; IIIa Druantia Cassette nucleotides Column G Type I “genomic_accession” with Start in Column AT “Genomic Start Point” and End in Column AU “Genomic End Point” Defense System DruM polypeptides Table 10; Rows 124-295; IIIb Druantia Column AD “DruM Type II protein_accession” and Column AE “PRT SEQ ID NO:” Defense System DruF polypeptides Table 10; Rows 124-295; IIIb Druantia Column AH “DruF Type II protein_accession” and Column AI “PRT SEQ ID NO:” Defense System DruG polypeptides Table 10; Rows 124-295; IIIb Druantia Column AL “DruG Type II protein_accession” and Column AM “PRT SEQ ID NO:” Defense System DruE polypeptides Table 10; Rows 124-295; IIIb Druantia Column Z “DruE Type II protein_accession” and Column AA “PRT SEQ ID NO:” Defense System druM poly- Table 10; Rows 124-295; IIIb Druantia nucleotides Column AD “DruM Type II protein_accession” and Column AF “DNA SEQ ID NO:” Defense System druF poly- Table 10; Rows 124-295; IIIb Druantia nucleotides Column AH “DruF Type II protein_accession” and Column AJ “DNA SEQ ID NO:” Defense System druG poly- Table 10; Rows 124-295; IIIb Druantia nucleotides Column AL “DruG Type II protein_accession” and Column AN “DNA SEQ ID NO:” Defense System druE poly- Table 10; Rows 124-295; IIIb Druantia nucleotides Column Z “DruE Type II protein_accession” and Column AB “DNA SEQ ID NO:” Defense System Gene poly- Table 10; Rows 124-295; IIIb Druantia Cassette nucleotides Column G Type II “genomic_accession” with Start in Column AT “Genomic Start Point” and End in Column AU “Genomic End Point” Defense System DruH polypeptides Table 10; Rows 296-1343; IIIc Druantia Column AP “DruH Type III protein_accession” and Column AQ “PRT SEQ ID NO:” Defense System DruE polypeptides Table 10; Rows 296-1343; IIIc Druantia Column Z “DruE Type III protein_accession” and Column AA “PRT SEQ ID NO:” Defense System druH poly- Table 10; Rows 296-1343; IIIc Druantia nucleotides Column AP “DruH Type III protein_accession” and Column AR “DNA SEQ ID NO:” Defense System druE poly- Table 10; Rows 296-1343; IIIc Druantia nucleotides Column Z “DruE Type III protein_accession” and Column AB “DNA SEQ ID NO:” Defense System Gene poly- Table 10; Rows 296-1343; IIIc Druantia Cassette nucleotides Column G Type III “genomic_accession” with Start in Column AT “Genomic Start Point” and End in Column AU “Genomic End Point” Defense System IV HamA polypeptides Table 12; Rows 2-1782; Hachiman Column H “HamA protein_accession” and Column I “PRT SEQ ID NO:” Defense System HamB polypeptides Table 12; Rows 2-1782; IV Hachiman Column L “HamB protein_accession” and Column M “PRT SEQ ID NO:” Defense System hamA poly- Table 12; Rows 2-1782; IV Hachiman nucleotides Column H “HamA protein_accession” and Column J “DNA SEQ ID NO:” Defense System hamB poly- Table 12; Rows 2-1782; IV Hachiman nucleotides Column L “HamB protein_accession” and Column N “DNA SEQ ID NO:” Defense System Gene poly- Table 12; Rows 2-1782; IV Hachiman Cassette nucleotides Column G “genomic_accession” with Start in Column P “Genomic Start Point” and End in Column Q “Genomic End Point” Defense System V SduA polypeptides Table 13; Rows 2-1247; Shedu Column H “SduA protein_accession” and Column I “PRT SEQ ID NO:” Defense System V sduA poly- Table 13; Rows 2-1247; Shedu nucleotides Column H “SduA protein_accession” and Column J “DNA SEQ ID NO:” Defense System V Gene poly- Table 13; Rows 2-1782; Shedu Cassette nucleotides Column G “genomic_accession” with Start in Column L “Genomic Start Point” and End in Column M “Genomic End Point” Defense System GajA polypeptides Table 14; Rows 2-4599; VI Gabija Column H “GajA protein_accession” and Column I “PRT SEQ ID NO:” Defense System GajB polypeptides Table 14; Rows 2-4599; VI Gabija Column L “GajB protein_accession” and Column M “PRT SEQ ID NO:” Defense System gajA poly- Table 14; Rows 2-4599; VI Gabija nucleotides Column H “GajA protein_accession” and Column J “DNA SEQ ID NO:” Defense System gajB poly- Table 14; Rows 2-4599; VI Gabija nucleotides Column L “GajB protein_accession” and Column N “DNA SEQ ID NO:” Defense System Gene poly- Table 14; Rows 2-4599; VI Gabija Cassette nucleotides Column G “genomic_accession” with Start in Column P “Genomic Start Point” and End in Column Q “Genomic End Point” Defense System PtuA polypeptides Table 15; Rows 2-2507; VII Septu Column H “PtuA protein_accession” and Column I “PRT SEQ ID NO:” Defense System PtuB polypeptides Table 15; Rows 2-2507; VII Septu Column L “PtuB protein_accession” and Column M “PRT SEQ ID NO:” Defense System ptuA poly- Table 15; Rows 2-2507; VII Septu nucleotides Column H “PtuA protein_accession” and Column J “DNA SEQ ID NO:” Defense System ptuB poly- Table 15; Rows 2-2507; VII Septu nucleotides Column L “PtuB protein_accession” and Column N “DNA SEQ ID NO:” Defense System Gene poly- Table 15; Rows 2-2507; VII Septu Cassette nucleotides Column G “genomic_accession” with Start in Column P “Genomic Start Point” and End in Column Q “Genomic End Point” Defense System LmuA polypeptides Table 16; Rows 2-698; VIII Lamussa Column H “LmuA protein_accession” and Column I “PRT SEQ ID NO:” Defense System LmuB polypeptides Table 16; Rows 2-698; VIII Lamussa Column L “LmuB protein_accession” and Column M “PRT SEQ ID NO:” Defense System lmuA poly- Table 16; Rows 2-698; VIII Lamussa nucleotides Column H “LmuA protein_accession” and Column J “DNA SEQ ID NO:” Defense System lmuB poly- Table 16; Rows 2-698; VIII Lamussa nucleotides ColumnL “LmuB protein_accession” and Column N “DNA SEQ ID NO:” Defense System Gene poly- Table 16; Rows 2-698; VIII Lamussa Cassette nucleotides Column G “genomic_accession” with Start in Column P “Genomic Start Point” and End in Column Q “Genomic End Point” Defense System KwaA polypeptides Table 17; Rows 2-935; IX Kiwa Column H “KwaA protein_accession” and Column I “PRT SEQ ID NO:” Defense System KwaB polypeptides Table 17; Rows 2-935; IX Kiwa Column L “KwaB protein_accession” and Column M “PRT SEQ ID NO:” Defense System kwaA poly- Table 17; Rows 2-935; IX Kiwa nucleotides Column H “KwaA protein_accession” and Column J “DNA SEQ ID NO:” Defense System kwaB poly- Table 17; Rows 2-935; IX Kiwa nucleotides Column L “KwaB protein_accession” and Column N “DNA SEQ ID NO:” Defense System Gene poly- Table 17; Rows 2-935; IX Kiwa Cassette nucleotides Column G “genomic_accession” with Start in Column P “Genomic Start Point” and End in Column Q “Genomic End Point” Defense System JetA polypeptides Table 11; Rows 2-2322; Xa Wadjet type I Column J “JetA protein_accession” and Column K “PRT SEQ ID NO:” Defense System JetB polypeptides Table 11; Rows 2-2322; Xa Wadjet type I Column N “JetB protein_accession” and Column O “PRT SEQ ID NO:” Defense System JetC polypeptides Table 11; Rows 2-2322; Xa Wadjet type I Column R “JetC protein_accession” and Column S “DNA SEQ ID NO:” Defense System JetD polypeptides Table 11; Rows 2-2322; Xa Wadjet type I Column V “JetD protein_accession” and Column W “PRT SEQ ID NO:” Defense System jetA poly- Table 11; Rows 2-2322; Xa Wadjet type I nucleotides Column J “JetA protein_accession” and Column L “DNA SEQ ID NO:” Defense System jetB poly- Table 11; Rows 2-2322; Xa Wadjet type I nucleotides Column N “JetB protein_accession” and Column P “DNA SEQ ID NO:” Defense System jetC poly- Table 11; Rows 2-2322; Xa Wadjet type I nucleotides Column R “JetC protein_accession” and Column T “DNA SEQ ID NO:” Defense System jetD poly- Table 11; Rows 2-2322; Xa Wadjet type I nucleotides Column V “JetD protein_accession” and Column X “DNA SEQ ID NO:” Defense System Gene poly- Table 11; Rows 2-2322; Xa Wadjet type I Cassette nucleotides Column G “genomic_accession” with Start in Column Z “Genomic Start Point” and End in Column AA “Genomic End Point” Defense System JetA^(ii) polypeptides Table 11; Rows 2323-2844; Xb Wadjet type II Column J “JetA protein_accession” and Column K “PRT SEQ ID NO:” Defense System JetB^(ii) polypeptides Table 11; Rows 2323-2844; Xb Wadjet type II Column N “JetB protein_accession” and Column O “DNA SEQ ID NO:” Defense System JetC^(ii) polypeptides Table 11; Rows 2323-2844; Xb Wadjet type II Column R “JetC protein_accession” and Column S “PRT SEQ ID NO:” Defense System JetD^(ii) polypeptides Table 11; Rows 2323-2844; Xb Wadjet type II Column V “JetD protein_accession” and Column W “PRT SEQ ID NO:” Defense System jetA^(ii) poly- Table 11; Rows 2323-2844; Xb Wadjet type II nucleotides Column J “JetA protein_accession” and Column L “DNA SEQ ID NO:” Defense System jetB^(ii) poly- Table 11; Rows 2323-2844; Xb Wadjet type II nucleotides Column N “JetB protein_accession” and Column P “DNA SEQ ID NO:” Defense System jetC^(ii) poly- Table 11; Rows 2323-2844; Xb Wadjet type II nucleotides Column R “JetC protein_accession” and Column T “DNA SEQ ID NO:” Defense System jetD^(ii) poly- Table 11; Rows 2323-2844; Xb Wadjet type II nucleotides Column V “JetD protein_accession” and Column X “DNA SEQ ID NO:” Defense System Gene poly- Table 11; Rows 2323-2844; Xb Wadjet type II Cassette nucleotides Column G “genomic_accession” with Start in Column Z “Genomic Start Point” and End in Column AA “Genomic End Point” Defense System JetA^(iii) polypeptides Table 11; Rows 2845-3174; Xc Wadjet type Column J “JetA III protein_accession” and Column K “PRT SEQ ID NO:” Defense System JetB^(iii) polypeptides Table 11; Rows 2845-3174; Xc Wadjet type Column N “JetB III protein_accession” and Column O “PRT SEQ ID NO:” Defense System JetC^(iii) polypeptides Table 11; Rows 2845-3174; Xc Wadjet type Column R “JetC III protein_accession” and Column S “PRT SEQ ID NO:” Defense System JetD^(iii) polypeptides Table 11; Rows 2845-3174; Xc Wadjet type Column V “JetD III protein_accession” and Column W “PRT SEQ ID NO:” Defense System jetA^(iii) poly- Table 11; Rows 2845-3174; Xc Wadjet type nucleotides Column J “JetA III protein_accession” and Column L “DNA SEQ ID NO:” Defense System jetB^(iii) poly- Table 11; Rows 2845-3174; Xc Wadjet type nucleotides Column N “JetB III protein_accession” and Column P “DNA SEQ ID NO:” Defense System jetC^(iii) poly- Table 11; Rows 2845-3174; Xc Wadjet type nucleotides Column R “JetC III protein_accession” and Column T “DNA SEQ ID NO:” Defense System jetD^(iii) poly- Table 11; Rows 2845-3174; Xc Wadjet type nucleotides Column V “JetD III protein_accession” and Column X “DNA SEQ ID NO:” Defense System Gene poly- Table 11; Rows 2845-3174; Xc Wadjet type Cassette nucleotides Column G III “genomic_accession” with Start in Column Z “Genomic Start Point” and End in Column AA “Genomic End Point”

Table 18 lists embodiments of the components of each Defense System and embodiments gene cassettes encoding the Defense Systems. Provided are the Sequence Numbers comprising the polypeptide and polynucleotide sequences, or explicit Reference to the Accession numbers provided in Tables 8-17, respectively for each Defense System, from which the skilled artisan can access the polypeptide and polynucleotide sequences. While Table 18 highlights polypeptide components of defense systems and the genes sequences that encode them, in some embodiments, defense system components include non-coding RNA and/or regulatory nucleic acid sequences.

Using the Reference locations provided in Table 18 and the “protein accession” numbers provided in Tables 8-17, one can reach both the amino acid and the nucleotide sequences of a Defense System component. For example, to access the polypeptide (amino acid) sequence of a component, a skilled artisan would find the Defense System and component of interest in Table 18. Next, they would use the Reference information provided in Table 18 to identify the series of accession numbers that encompass the polypeptide sequence of the component. Following that, the skilled artisan would query the NCBI “Protein” database: https://www.ncbi.nlm.nih.gov/protein, and enter the accession number provided for a component, for example but not limited to “ABS66238.1” (Table 8, row 2, column J), which would send them to https://www.ncbi.nlm.nih.gov/protein/CEP95570.1, wherein the amino acid sequence of the component is disclosed on this page, as follows:

(SEQ ID NO: 1) MTVLKGLGRCVLFWTITGIFGVLYWLLPVVDMSALWGGTARAFSGDFSTV GTQPYAFALAFALFATAVGFASAFLILHVGPIGWRLRRLRLRIAGTGDME GFARTYDATRALMERDRLISHAWKQFDTVLVHRPDERIIRSTARAHAFFN LGMAREKYFGLKMMGALPGYFVGIGLLLTFAGLVLALNKAAMAVNSSDAA GMQGATRELLQVATFKFATSIAGLGASIALSLLFRIYTILMEGFFIGFCE TVEDRVRYLSAQQIAAESRDFAAEQTDQLKSMSADFFARMGQELTPGMSR MFETALDKVMSPVTTSIDQAVHRLADSSQSGMSEMLTRFTDSVQNGAGAE LRGLAETLRGMQGAMVGVQQGLTGSGEDFGRRMSDAAENLNRLVTDAGAR LGEGTDQSRAVLMDAVTAMRETFEQANRKVDEGLGAAAGGASARLEEVMG RVLGSLEAQVGGFRESLSGFQEKMAGQLDETRVRVSAAQAEATDAVAQAS AQAARALQDGLADALVRINGEIERFVVAMRASEVTLAAQAKAMMDATDKS RQVADAFSRTAQDVRAASVPLAQSGERIAGATEKLGEAAGRSVAVLDKSQ EEARRLAQALTGHVSNLDQVWRSYSARFEAVDEALGKAFERLTRGTDEQQ DRIATFVRDVDVTFKEAVDTLAGCIGGLKDNTEEMVEAVDDLKRALRVEA AE.

Similarly, to access the nucleotide (nucleic acid) sequence of a component, a skilled artisan would find the Defense System and component of interest in Table 18. Next, they would use the Reference information provided in Table 18 to identify the series of accession numbers that encompass the nucleotide sequence of the component. Following that, the skilled artisan would query the NCBI “Identical Protein Groups” database https://www.ncbi.nlm.nih.gov/ipg, and enter the accession number provided for a component, for example but not limited to “ABS66238.1” (Table 8, row 2, column J), which would send them to https://www.ncbi.nlm.nih.gov/ipg/?term=ABS66238.1, wherein any of the links under “CDS Region in Nucleotide” leads to the nucleotide sequence:

Origin

(SEQ ID NO: 2) 1 atgacggtct tgaagggttt ggggcgctgc gttctttttt ggacaatcat attcggcatc 61 ttcggcgtct tgtactggct ccttcctgtc gtcgacatga gcgcgctctg gggcgggacg 121 gcgcgcgcct tcagcggtga tttttccacc gtcggcaccc agccctatgc tttcgccctg 181 gccttcgccc tgttcgccac ggcggtcggc ttcgcctccg ctttcctcat cctgcatgtg 241 ggtccgatcg ggtggaggct gcggcgcctg cgattgcgta tcgcgggcac gggggacatg 301 gaaggcttcg ccagaaccta tgacgccacg cgcgcgctca tggagcgcga tcgactgatc 361 agccatgcgt ggaagcagtt cgacaccgtg ctcgttcatc ggccggatga acgcatcatc 421 cgcagcaccg cccgtgccca cgcctttttc aatctgggca tggcgcggga gaagtatttc 481 ggcctgaaga tgatgggcgc gctgccgggc tatttcgtcg gcatcggtct tctgctcacc 541 ttcgccggcc tcgtgctggc gctcaacaag gcggccatgg ccgtcaacag ctcggatgcc 601 gccggaatgc agggcgcgac gcgcgaactg cttcaggtgg cgaccttcaa gtttgccacc 661 tccatcgccg gccttggtgc ctccatcgcg ctctcgctgc tgttccgcat ctataccatc 721 ctgatggaag gcttcttcat cggcttctgc gagacggtgg aggaccgggt gcgctatctg 781 tcggcacagc agatcgcggc cgagagccgg gattttgccg ccgaacagac cgatcagctc 841 aagtcgatca acagcgccga cttcttcgcg cgcatggggc aggagctgac gccgggcatg 901 tcccgcatgt tcgagacggc gctcgacaag gtcatgtcgc cggtgaccac cagcatcgac 961 caggcggtcc ataggctcgc cgacagcagc cagagcggca tgtccgagat gctgacgcgc 1021 ttcaccgatt cggtgcagaa cggggccggg gccgagttgc gcgggctcgc cgagacgctc 1081 cggggcatgc agggtgccat ggtgggcgtg cagcaggggc tgaccgggtc cggcgaggat 1141 ttcggccggc gcatgtcgga tgccgcggaa aacctcaacc gcctcgtcac cgacgccggc 1201 gcacgcctgg gtgaaggcac ggaccagagc cgcgcggtcc tcatggatgc ggtcaccgcc 1261 atgcgggaga ccttcgagca agccaatcgc aaggtggacg agggtctcgg cgccgcggcg 1321 ggcggggctt cggcgcggct ggaggaggtc atggggcggg tgctcggcag cctcgaagcc 1381 caggtgggcg gctttcgcga gagcctgtcc ggcttccagg agaagatggc cggccagctc 1441 gatgagaccc gggtccgcgt ctccgccgcc caggcggagg cgaccgatgc cgtcgcccag 1501 gcctcggccc aggcggcgcg cgcgctccag gacgggcttg cggatgcgct cgtgcgcatc 1561 aacggcgaga tcgagcgttt cgtcgtcgcc atgcgggcca gcgaggtgac gctggcggcg 1621 caggccaagg cgatgatgga cgccaccgac aagtcgcgcc aggtggccga tgccttcagc 1681 cgcactgcgc aggatgtgcg cgcggctagc gtaccgctgg cccaatcggg cgagcgcatc 1741 gcgggggcga ccgagaagct cggcgaggcc gccggccggt cggtggcggt cctcgacaag 1801 agccaggagg aggcgcggcg gctggcccag gcgctgaccg gccatgtctc caacctcgat 1861 caggtctggc gcagctattc ggcccgcttc gaggcggtcg acgaggcgct gggcaaggcg 1921 ttcgagcgcc tgacgcgcgg aaccgacgag cagcaggacc ggatcgccac tttcgttcgc 1981 gacgtggacg tgaccttcaa ggaagcggtg gatacgctgg ccggctgcat cggcggcctg 2041 aaggacaata ccgaggagat ggtggaggcg gtggacgacc tgaaacgcgc gctgcgcgtc 2101 gaggccgcgg aatga.

Defense Systems & Combination of Defense Systems

Described above are non-limiting examples of defense systems, wherein each system comprises components that together make-up a defense system, wherein in some embodiments each component is encoded by a different gene. In some embodiments, the combination of components that make-up a Defense System, for example the components that make-up each of Defense Systems Ia-Xc disclosed above, may include components comprising nucleic acid sequences or amino acid sequences derived from different species (different donor species). In some embodiments, the combination of components that make-up a Defense System, for example the components that make-up each of Defense Systems Ia-Xc, may include homologs of the genes and/or polypeptides identified in donor species. In some embodiments, the combination of components that make-up a Defense System, for example the components that make-up each of Defense Systems Ia-Xc, differs from the combination of components found in donor species. In some embodiments, the components of a Defense System, for example the components that make-up each of Defense Systems Ia-Xc, comprises less than all the components found in donor species. In some embodiments, the components of a Defense System, for example the components that make-up each of Defense Systems Ia-Xc, comprises duplications of the components found in donor species, or multiple copies of one or more components found in a donor species. In some embodiments, the components of a Defense System, for example the components that make-up each of Defense Systems Ia-Xc, comprise functional portions of the components found in donor species, wherein a functional component comprise less than the full length of the components present in a donor species. In some embodiments, the order of components encoded on the nucleic acid sequence comprised within a construct comprising a Defense System, for example the order of the components the make-up each of Defense Systems Ia-Xc, differs from the order of the components found encoded on the nucleic acid sequences in donor species.

In some embodiments each Defense Systems Ia, Ib, II, III, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc comprising a nucleic acid construct comprising a nucleic acid sequence encoding the polypeptide components as disclosed herein, further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof.

In some embodiments, a construct further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence. In some embodiment, the nucleic acid sequence of the regulatory element is from the same species as at least one component of the Defense System. In some embodiment, the nucleic acid sequence of the regulatory element is not from the same species as any of the components of the Defense System. In some embodiment, the nucleic acid sequence of the regulatory element is not from the donor species of the Defense System. In some embodiment, when a host cell comprises a Defense System, the nucleic acid sequence of the regulatory element is from the host species.

In some embodiments, cis-acting regulatory elements include those that direct constitutive expression of a nucleic acid sequence. In some embodiments, cis-acting regulatory elements comprise those that direct inducible expression of the nucleic acid sequence only under certain conditions.

According to some embodiments, the cis-acting regulatory element is heterologous to the genes encoding the components of a system. In some embodiments, the cis-acting regulatory element is heterologous to Defense System Ia genes zorA, zorB, zorC, and zorD. In some embodiments, the cis-acting regulatory element is heterologous to Defense System Ib genes zorA, zorB, and zorE. In some embodiments, the cis-acting regulatory element is heterologous to Defense System II genes thsA and thsB. In some embodiments, the cis-acting regulatory element is heterologous to Defense System IIIa genes druA, druB, druC, drub, and druE. In some embodiments, the cis-acting regulatory element is heterologous to Defense System IIIb genes druM, druF, druG, and druE. In some embodiments, the cis-acting regulatory element is heterologous to Defense System IIIc genes druH and druE. In some embodiments, the cis-acting regulatory element is heterologous to Defense System IV genes hamA and hamB. In some embodiments, the cis-acting regulatory element is heterologous to Defense System V component sduA. In some embodiments, the cis-acting regulatory element is heterologous to Defense System VI genes gajA and gajB. In some embodiments, the cis-acting regulatory element is heterologous to Defense System VII genes ptuA and ptuB. In some embodiments, the cis-acting regulatory element is heterologous to Defense System VIII genes lmuA and lmuB. In some embodiments, the cis-acting regulatory element is heterologous to Defense System IX genes kwaA and kwaB. In some embodiments, the cis-acting regulatory element is heterologous to Defense System Xa genes jetA, jetB, jetC, and jetD. In some embodiments, the cis-acting regulatory element is heterologous to Defense System Xb genes jetA^(ii), jetB^(ii), jetC^(ii), and jetD^(ii). In some embodiments, the cis-acting regulatory element is heterologous to Defense System Xc genes jetA^(iii), jetB^(iii), jetC^(iii), and jetD^(iii).

According to some embodiments, the nucleic acid construct includes a promoter sequence for directing transcription of the nucleic acid sequence in a host cell in a constitutive or inducible manner. In some embodiments, a promoter is a constitutive promoter. In some embodiments, a promoter is an inducible or regulatable promoter.

Constitutive promoters suitable for use with some embodiments of the Defense System constructs disclosed herein are promoter sequences which are active under most environmental conditions and most types of cells such as the cytomegalovirus (CMV) and Rous sarcoma virus (RSV). Inducible promoters suitable for use with some embodiments of Defense System constructs disclosed herein, include for example but not limited to the tetracycline-inducible promoter (Zabala M, et al., Cancer Res. 2004, 64(8): 2799-804) or pathogen-inducible promoters. Such promoters include those from pathogenesis-related proteins (PR proteins), which are induced following infection by a pathogen.

According to some embodiments, the promoter is bacterial nucleic acid (e.g., expression) construct.

A skilled artisan would appreciate that bacterial promoter encompasses any DNA sequence capable of binding bacterial RNA polymerase and initiating the downstream (3′) transcription of a coding sequence into mRNA. A promoter can have a transcription initiation region, which is usually placed proximal to the 5′ end of the coding sequence. This transcription initiation region typically includes an RNA polymerase binding site and a transcription initiation site. A bacterial promoter can also have a second domain called an operator, which can overlap an adjacent RNA polymerase binding site at which RNA synthesis begins. The operator permits negative regulated (inducible) transcription, as a gene repressor protein can bind the operator and thereby inhibit transcription of a specific gene. Constitutive expression can occur in the absence of negative regulatory elements, such as the operator. In addition, positive regulation can be achieved by a gene activator protein binding sequence, which, if present is usually proximal (5′) to the RNA polymerase binding sequence.

A non-limiting example of a gene activator protein is the catabolite activator protein (CAP), which helps initiate transcription of the lac operon in Escherichia coli (Raibaud et al. (1984) Annu. Rev. Genet. 18:173). Regulated expression can therefore be either positive or negative, thereby either enhancing or reducing transcription. Other examples of positive and negative regulatory elements are well known in the art. Various promoters that can be included in the protein expression system include, but are not limited to, a T7/LacO hybrid promoter, a trp promoter, a T7 promoter, a lac promoter, and a bacteriophage lambda promoter. Any suitable promoter can be used with the Defense systems disclosed herein, including the native promoter or a heterologous promoter. Heterologous promoters can be constitutively active or inducible. A non-limiting example of a heterologous promoter is given in U.S. Pat. No. 6,242,194 to Kullen and Klaenhammer.

Sequences encoding metabolic pathway enzymes provide particularly useful promoter sequences. Examples include promoter sequences derived from sugar metabolizing enzymes, such as galactose, lactose (lac) (Chang et al. (1987) Nature 198:1056), and maltose. Additional examples include promoter sequences derived from biosynthetic enzymes such as tryptophan (trp) (Goeddel et al. (1980) Nucleic Acids Res. 8:4057; Yelverton et al. (1981) Nucleic Acids Res. 9:731; U.S. Pat. No. 4,738,921; EPO Publication Nos. 36,776 and 121,775). The beta-lactamase (bla) promoter system (Weissmann, (1981) “The Cloning of Interferon and Other Mistakes,” in Interferon 3 (ed. I. Gresser); bacteriophage lambda PL (Shimatake et al. (1981) Nature 292:128); the arabinose-inducible araB promoter (U.S. Pat. No. 5,028,530); and T5 (U.S. Pat. No. 4,689,406) promoter systems also provide useful promoter sequences. See also Balbas (2001) Mol. Biotech. 19:251-267, where E. coli expression systems are discussed.

In addition, synthetic promoters that do not occur in nature also function as bacterial promoters. For example, transcription activation sequences of one bacterial or phage promoter can be joined with the operon sequences of another bacterial or phage promoter, creating a synthetic hybrid promoter (U.S. Pat. No. 4,551,433). For example, the tac (Amann et al. (1983) Gene 25:167; de Boer et al. (1983) Proc. Natl. Acad. Sci. 80:21) and trc (Brosius et al. (1985) J. Biol. Chem. 260:3539-3541) promoters are hybrid trp-lac promoters comprised of both trp promoter and lac operon sequences that are regulated by the lac repressor. The tac promoter has the additional feature of being an inducible regulatory sequence. Thus, for example, expression of a coding sequence operably linked to the tac promoter can be induced in a cell culture by adding isopropyl-1-thio-β-D-galactoside (IPTG). Furthermore, bacterial promoter can include naturally occurring promoters of non-bacterial origin that have the ability to bind bacterial RNA polymerase and initiate transcription. A naturally occurring promoter of non-bacterial origin can also be coupled with a compatible RNA polymerase to produce high levels of expression of some genes in prokaryotes. The phage T7 RNA polymerase/promoter system is an example of a coupled promoter system (Studier et al. (1986) J. Mol. Biol. 189:113; Tabor et al. (1985) Proc. Natl. Acad. Sci. 82:1074). In addition, a hybrid promoter can also be comprised of a phage promoter and an E. coli operator region (EPO Publication No. 267,851).

The nucleic acid construct can additionally contain a nucleic acid sequence encoding the repressor (or inducer) for that promoter. For example, an inducible construct can regulate transcription from the Lac operator (LacO) by expressing the nucleotide sequence encoding the Lad repressor protein. Other examples include the use of the lexA gene to regulate expression of pRecA, and the use of trpO to regulate ptrp. Alleles of such genes that increase the extent of repression (e.g., lacIq) or that modify the manner of induction (e.g., lambda CI857, rendering lambda pL thermo-inducible, or lambda CI+, rendering lambda pL chemo-inducible) can be employed.

In the construction of the construct, in some embodiments, the promoter is positioned approximately the same distance from the heterologous transcription start site as it is from the transcription start site in its natural setting. As is known in the art, however, some variation in this distance can be accommodated without loss of promoter function.

According to some embodiments, the nucleic acid construct includes a promoter sequence for directing transcription of the nucleic acid sequence in the cell in a constitutive or inducible manner. In some embodiments, the expression of a Defense System disclosed herein can be transient or consistent, episomal or integrated into the chromosome of a host cell. According to some embodiments, the expression is on a transmissible genetic element.

The nucleic acid construct of some embodiments of a Defense System disclosed herein may further include additional sequences which render this construct suitable for replication and integration in prokaryotes, eukaryotes, or preferably both (e.g., shuttle vectors).

In some embodiments, the construct comprises a recombination element for integrating the polynucleotide into a genome of a cell transfected with the construct.

A skilled artisan would appreciate that the term “recombination element” encompasses a nucleic acid sequence that allows the integration of the polynucleotide in the genome of a cell (e.g. bacteria) transfected with the construct.

In some embodiments, a construct may also contain a transcription and translation initiation sequence, transcription and translation terminator and a polyadenylation signal. By way of example, such constructs will typically include a 5′ LTR, a tRNA binding site, a packaging signal, an origin of second-strand DNA synthesis, and a 3′ LTR or a portion thereof.

In some embodiments, a construct further comprises a transmissible element for directing transfer of said nucleic acid sequence from one cell to another. In some embodiments, a Defense System Ia or the Defense System Ia component(s) is on a transmissible genetic element. In some embodiments, a Defense System Ib or the Defense System Ib component(s) is on a transmissible genetic element. In some embodiments, a Defense System IIIa or the Defense System IIIa component(s) is on a transmissible genetic element. In some embodiments, a Defense System IIIb or the Defense System IIIb component(s) is on a transmissible genetic element. In some embodiments, a Defense System IIIc or the Defense System IIIc component(s) is on a transmissible genetic element. In some embodiments, a Defense System IV or the Defense System IV component(s) is on a transmissible genetic element. In some embodiments, a Defense System V or the Defense System V component(s) is on a transmissible genetic element. In some embodiments, a Defense System VI or the Defense System VI component(s) is on a transmissible genetic element. In some embodiments, a Defense System VII or the Defense System VII component(s) is on a transmissible genetic element. In some embodiments, a Defense System VIII or the Defense System VIII component(s) is on a transmissible genetic element. In some embodiments, a Defense System IX or the Defense System IX component(s) is on a transmissible genetic element. In some embodiments, a Defense System Xa or the Defense System Xa component(s) is on a transmissible genetic element. In some embodiments, a Defense System Xb or the Defense System Xb component(s) is on a transmissible genetic element. In some embodiments, a Defense System Xc or the Defense System Xc component(s) is on a transmissible genetic element.

In some embodiments, a transmissible genetic element comprises the construct of a Defense System disclosed herein. In some embodiments, a transmissible genetic element comprises the construct of Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a transmissible genetic element comprises the construct of Defense System Ia. In some embodiments, a transmissible genetic element comprises the construct of Defense System Ib. In some embodiments, a transmissible genetic element comprises the construct of Defense System II. In some embodiments, a transmissible genetic element comprises the construct of Defense System IIIa. In some embodiments, a transmissible genetic element comprises the construct of Defense System IIIb. In some embodiments, a transmissible genetic element comprises the construct of Defense System IIIc. In some embodiments, a transmissible genetic element comprises the construct of Defense System IV. In some embodiments, a transmissible genetic element comprises the construct of Defense System V. In some embodiments, a transmissible genetic element comprises the construct of Defense System VI. In some embodiments, a transmissible genetic element comprises the construct of Defense System VII. In some embodiments, a transmissible genetic element comprises the construct of Defense System VIII. In some embodiments, a transmissible genetic element comprises the construct of Defense System IX. In some embodiments, a transmissible genetic element comprises the construct of Defense System Xa. In some embodiments, a transmissible genetic element comprises the construct of Defense System Xb. In some embodiments, a transmissible genetic element comprises the construct of Defense System Xc.

A skilled artisan would appreciate that the term “transmissible element” or “transmissible genetic element”, which are interchangeably used, encompasses a polynucleotide that allows the transfer of the nucleic acid sequence from one cell to another, e.g. from one bacteria to another.

According to some embodiments, a transmissible genetic element comprises a conjugative genetic element or mobilizable genetic element. In some embodiments, a transmissible genetic element comprises a conjugative genetic element. In some embodiments, a transmissible genetic element comprises a mobilizable genetic element. The skilled artisan would appreciate that a “conjugative plasmid” encompasses a plasmid that is transferred from one cell (e.g. bacteria) to another during conjugation, and the term “mobilizable element” encompasses a transposon, which is a DNA sequence that can change its position within the genome.

In some embodiments, a nucleic acid construct disclosed herein, comprises an expression vector. In some embodiments, an “expression vector” or a “vector”, used interchangeably herein, comprises and expresses the Defense System components from a single or a plurality of constructs (i.e. construct). In some embodiments, expression comprises transient expression. In some embodiments, expression comprises constitutive expression. In some embodiments, expression is from an episomal nucleic acid sequence. In some embodiments, expression is from a nucleic acid sequence integrated into the chromosome of the cell. According to specific embodiments, the expression is on a transmissible genetic element.

According to some embodiments, a construct further comprises a recombination element for integrating the nucleic acid sequence into a genome of cell transfected with the construct. A skilled artisan would appreciate that the term “recombination element” encompasses a polynucleotide that allows the integration of the nucleic acid sequence in the genome of a cell (e.g. bacteria) transfected with the construct.

In addition, typical constructs may also, in certain embodiments, contain a transcription and translation initiation sequence, transcription and translation terminator and a polyadenylation signal. By way of example, such constructs will typically include a 5′ LTR, a tRNA binding site, a packaging signal, an origin of second-strand DNA synthesis, and a 3′ LTR or a portion thereof.

According to some embodiment, the nucleic acid construct comprises a plurality of cloning sites for ligating a nucleic acid sequence of a Defense System, such that it is under transcriptional regulation of the regulatory elements.

Selectable marker genes that ensure maintenance of a construct in a host cell can also be included in the construct. In some embodiments, selectable markers include those which confer resistance to drugs such as ampicillin, chloramphenicol, erythromycin, kanamycin (neomycin), and tetracycline (Davies et al. (1978) Annu. Rev. Microbiol. 32:469). Selectable markers can also allow a cell to grow on minimal medium, or in the presence of toxic metabolite and can include biosynthetic genes, such as those in the histidine, tryptophan, and leucine biosynthetic pathways.

Other than containing the necessary elements for the transcription and translation of the inserted coding sequence, the expression construct of some embodiments of Defense system can also include sequences engineered to enhance stability, production, purification, yield or toxicity of the expressed polypeptide. Where appropriate, the nucleic acid sequences may be optimized for increased expression in the transformed organism. For example, the nucleic acid sequences can be synthesized using preferred codons for improved expression.

Various methods known within the art can be used to introduce the construct of some embodiments of a Defense System disclosed herein into cells. Such methods are generally described in Sambrook et al., Molecular Cloning: A Laboratory Manual, Cold Springs Harbor Laboratory, New York (1989, 1992), in Ausubel et al., Current Protocols in Molecular Biology, John Wiley and Sons, Baltimore, Md. (1989), Chang et al., Somatic Gene Therapy, CRC Press, Ann Arbor, Mich. (1995), Vega et al., Gene Targeting, CRC Press, Ann Arbor Mich. (1995), Vectors: A Survey of Molecular Cloning Vectors and Their Uses, Butterworths, Boston Mass. (1988) and Gilboa et at. [Biotechniques 4 (6): 504-512, 1986] and include, for example, stable or transient transfection, natural or induced transformation, lipofection, electroporation and infection with recombinant viral vectors. In addition, see U.S. Pat. Nos. 5,464,764 and 5,487,992 for positive-negative selection methods.

Some methods of introducing a construct or constructs into bacterial cells include for example conventional transformation or transfection techniques, or by phage-mediated infection. A skilled artisan would appreciate that the terms “transformation”, “transduction”, “conjugation”, and “protoplast fusion” are intended to encompass a variety of art-recognized techniques for introducing foreign nucleic acid (e.g., DNA) into a cell, such as calcium chloride co-precipitation. A skilled artisan would appreciate that introduction of a construct or constructs into a bacterial cell, may in certain embodiments, result in expression of a polypeptide or polypeptides encoded by the construct or constructs.

Introduction of nucleic acids by phage infection offers several advantages over other methods such as transformation, since higher transfection efficiency can be obtained due to the infectious nature of phages. These methods are especially useful for rendering bacteria more sensitive to phage attack for antibiotics purposes as further described hereinbelow.

It will be appreciated that a Defense System polypeptide(s) can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. Thus, according to some embodiments, disclosed herein are isolated polypeptides of each of the Defense systems' components and functional fragments thereof as described herein. In some embodiments, a polypeptide component of a Defense System can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression, to confer resistance. In some embodiments, at least two different polypeptide components of a Defense System can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression, to confer resistance. In some embodiments, at least three different polypeptide components of a Defense System can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression, to confer resistance. In some embodiments, at least four polypeptide components of a Defense System can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression, to confer resistance. In some embodiments, at least five different polypeptide components of a Defense System can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression, to confer resistance. In some embodiments, multiple polypeptide components of a Defense System can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression, to confer resistance.

In some embodiments, a Defense System Ia polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system Ia's components and functional fragments thereof as described herein. In some embodiments, a Defense System Ib polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system Ib's components and functional fragments thereof as described herein. In some embodiments, Defense System II polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system II's components and functional fragments thereof as described herein. In some embodiments, Defense System IIIa polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system IIIa's components and functional fragments thereof as described herein. In some embodiments, Defense System IIIb polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system IIIb's components and functional fragments thereof as described herein. In some embodiments, Defense System IIIc polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system IIIc's components and functional fragments thereof as described herein. In some embodiments, Defense System IV polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system IV components and functional fragments thereof as described herein. In some embodiments, Defense System V polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense System V components and functional fragments thereof as described herein. In some embodiments, Defense System VI polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system VI's components and functional fragments thereof as described herein. In some embodiments, Defense System VII polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system VII's components and functional fragments thereof as described herein. In some embodiments, Defense System VIII polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system VIII's components and functional fragments thereof as described herein. In some embodiments, Defense System IX polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense system IX's components and functional fragments thereof as described herein. In some embodiments, a Defense System Xa polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense System Xa's components and functional fragments thereof as described herein. In some embodiments, a Defense System Xb polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense System Xb's components and functional fragments thereof as described herein. In some embodiments, a Defense System Xc polypeptides can be introduced directly into the cell (e.g., bacterial cell) and not via recombinant expression to confer resistance. In some embodiments, disclosed herein are isolated polypeptides of each of the Defense System Xc's components and functional fragments thereof as described herein.

In some embodiments, at least one Defense System component is on a transmissible genetic element. In some embodiments, more than one Defense System component, from the same Defense system, is on a transmissible genetic element. In some embodiments, two Defense System components, from the same Defense system, are on a transmissible genetic element. In some embodiments, three Defense System components, from the same Defense system, are on a transmissible genetic element. In some embodiments, four Defense System components, from the same Defense system, are on a transmissible genetic element. In some embodiments, five Defense System components, from the same Defense system, are on a transmissible genetic element. In some embodiments, all of the Defense System components from a single Defense system are on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System Ia component is on a transmissible genetic element. In some embodiments, more than one Defense System Ia component, is on a transmissible genetic element. In some embodiments, two Defense System Ia components, are on a transmissible genetic element. In some embodiments, three Defense System Ia components, are on a transmissible genetic element. In some embodiments, four Defense System Ia components, are on a transmissible genetic element. In some embodiments, all of the Defense System Ia components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System Ia is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System Ib component is on a transmissible genetic element. In some embodiments, more than one Defense System Ib component, is on a transmissible genetic element. In some embodiments, two Defense System Ib components, are on a transmissible genetic element. In some embodiments, three Defense System Ib components, are on a transmissible genetic element. In some embodiments, all of the Defense System Ib components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System Ib is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System II component is on a transmissible genetic element. In some embodiments, more than one Defense System II component, is on a transmissible genetic element. In some embodiments, two Defense System II components, are on a transmissible genetic element. In some embodiments, all of the Defense System II components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System II is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System IIIa component is on a transmissible genetic element. In some embodiments, more than one Defense System IIIa component, is on a transmissible genetic element. In some embodiments, two Defense System IIIa components, are on a transmissible genetic element. In some embodiments, three Defense System IIIa components, are on a transmissible genetic element. In some embodiments, four Defense System IIIa components, are on a transmissible genetic element. In some embodiments, five Defense System IIIa components, are on a transmissible genetic element. In some embodiments, all of the Defense System IIIa components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System IIIa is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System IIIb component is on a transmissible genetic element. In some embodiments, more than one Defense System IIIb component, is on a transmissible genetic element. In some embodiments, two Defense System IIIb components, are on a transmissible genetic element. In some embodiments, three Defense System IIIb components, are on a transmissible genetic element. In some embodiments, four Defense System IIIb components, are on a transmissible genetic element. In some embodiments, five Defense System IIIb components, are on a transmissible genetic element. In some embodiments, all of the Defense System IIIb components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System IIIb is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System IIIc component is on a transmissible genetic element. In some embodiments, more than one Defense System IIIc component, is on a transmissible genetic element. In some embodiments, two Defense System IIIc components, are on a transmissible genetic element. In some embodiments, three Defense System IIIc components, are on a transmissible genetic element. In some embodiments, four Defense System IIIc components, are on a transmissible genetic element. In some embodiments, five Defense System IIIc components, are on a transmissible genetic element. In some embodiments, all of the Defense System IIIc components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System IIIc is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System IV component is on a transmissible genetic element. In some embodiments, more than one Defense System IV component, is on a transmissible genetic element. In some embodiments, two Defense System IV components, are on a transmissible genetic element. In some embodiments, all of the Defense System IV components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System IV is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System V component is on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System V is on a transmissible genetic element. In some embodiments, all of the Defense System V components are on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System VI component is on a transmissible genetic element. In some embodiments, more than one Defense System VI component, is on a transmissible genetic element. In some embodiments, two Defense System VI components, are on a transmissible genetic element. In some embodiments, all of the Defense System VI components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System VI is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System VII component is on a transmissible genetic element. In some embodiments, more than one Defense System VII component, is on a transmissible genetic element. In some embodiments, two Defense System VII components, are on a transmissible genetic element. In some embodiments, all of the Defense System VII components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System VII is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System VIII component is on a transmissible genetic element. In some embodiments, more than one Defense System VIII component, is on a transmissible genetic element. In some embodiments, two Defense System VIII components, are on a transmissible genetic element. In some embodiments, all of the Defense System VIII components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense VIII is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System IX component is on a transmissible genetic element. In some embodiments, more than one Defense System IX component, is on a transmissible genetic element. In some embodiments, two Defense System IX components, are on a transmissible genetic element. In some embodiments, all of the Defense System IX components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System IX is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System Xa component is on a transmissible genetic element. In some embodiments, more than one Defense System Xa component, is on a transmissible genetic element. In some embodiments, two Defense System Xa components, are on a transmissible genetic element. In some embodiments, three Defense System Xa components, are on a transmissible genetic element. In some embodiments, four Defense System Xa components, are on a transmissible genetic element. In some embodiments, all of the Defense System Xa components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System Xa is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System Xb component is on a transmissible genetic element. In some embodiments, more than one Defense System Xb component, is on a transmissible genetic element. In some embodiments, two Defense System Xb components, are on a transmissible genetic element. In some embodiments, three Defense System Xb components, are on a transmissible genetic element. In some embodiments, four Defense System Xb components, are on a transmissible genetic element. In some embodiments, all of the Defense System Xb components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System Xb is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, at least one Defense System Xc component is on a transmissible genetic element. In some embodiments, more than one Defense System Xc component, is on a transmissible genetic element. In some embodiments, two Defense System Xc components, are on a transmissible genetic element. In some embodiments, three Defense System Xc components, are on a transmissible genetic element. In some embodiments, four Defense System Xc components, are on a transmissible genetic element. In some embodiments, all of the Defense System Xc components are on a transmissible genetic element. In some embodiments, the nucleic acid construct of Defense System Xc is on a transmissible genetic element. In some embodiments, the components are on the same transmissible genetic element. In some embodiments, the components are on different transmissible elements. In some embodiments, the order of the components on a transmissible genetic element is as found in a donor species. In some embodiments, the order of the components on a transmissible genetic element differs from the order found in a donor species.

In some embodiments, a construct disclosed herein, further comprises an element providing episomal maintenance of said construct within a cell transfected with said construct.

In some embodiments, a Defense System construct comprising a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence. In some embodiments, a Defense System construct comprising a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc further comprises a transmissible element for directing transfer of said nucleic acid sequence from one cell to another. In some embodiments, a Defense System construct comprising a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc further comprises a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct. In some embodiments, a Defense System construct comprising a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc further comprises an element providing episomal maintenance of said construct within a cell transfected with said construct. In some embodiments, a Defense System construct comprising a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc further comprises any combination of a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof.

In some embodiments, a defense system described herein comprises a combination of Defense Systems. In some embodiments, a defense system described herein comprises a combination of Defense Systems (Ia)-(Xc). In some embodiments, the combination of Defense Systems, for example but not limited to the combination of Defense Systems (Ia)-(Xc), provides advantageous properties including (1) resistance to a broader range of phages or (2) resistance to at least one phage and reduced transformation efficiency of plasmids or (3) both resistance to a broader range of phages and reduced transformation efficiency.

A skilled artisan would appreciate that the terms “anti-phage activity” or “resistant to infection by at least one phage” or “resistance to at least one phage” or “anti-phage defense” encompasses an activity provided by a Defense system to a host cell, for example but not limited to bacterial cell expressing a functional Defense System disclosed herein, wherein said bacterial cell then comprises an increased resistance to infection by at least one phage in comparison to bacteria of the same species under the same developmental stage (e.g. culture state) which does not express an endogenous functional Defense System. Resistance to infection, may be determined by for example but not limited to bacterial viability, phage lysogeny, phage genomic replication, or phage genomic degradation. The phage can be a lytic phage or a temperate (lysogenic) phage described herein. In some embodiments, the increase in resistance is at least 1.5 fold, at least 2 fold, at least 3 fold, at least 5 fold, at least 10 fold, or at least 20 fold as compared to same bacterial host in the absence of the functional Defense System.

In some embodiments, the increase in resistance is by at least 5%, by at least a 10%, at least 20%, at least 30%, at least 40%, at least 50%, at least 60%, at least 70%, at least 80%, at least 90% or more than 100% as compared to same host bacteria in the absence of the functional Defense System.

Assays for testing phage resistance are well known in the art and are further described hereinbelow.

A skilled artisan would appreciate that the terms “anti-plasmid activity” or “defense against plasmid transformation” or “reduced transformation by a plasmid” or “anti-plasmid defense” or “plasmid resistance” encompasses an activity provided by a Defense System to a host cell, for example but not limited to bacterial cell expressing a functional Defense System disclosed herein, wherein the bacterial cell then comprises a decreased efficiency of transformation by at least one plasmid in comparison to bacteria of the same species under the same developmental stage (e.g. culture state) which does not express a functional Defense System. Decreased efficiency of plasmid transformation, may be determined by for example but not limited to a transformation efficiency assay comparing bacteria comprising a Defense System with those not comprising the Defense System. The plasmid may be an episomal plasmid. In some embodiments, the decreased transformation efficiency is at least 1.5 fold, at least 2 fold, at least 3 fold, at least 5 fold, at least 10 fold, or at least 20 fold as compared to same bacterial host in the absence of the functional Defense System.

In some embodiments, the decreased transformation efficiency is by at least 5%, by at least a 10%, at least 20%, at least 30%, at least 40%, at least 50%, at least 60%, at least 70%, at least 80%, at least 90% or more than 100% as compared to same host bacteria in the absence of the functional Defense System.

A skilled artisan would appreciate that the term “donor species” may in certain embodiments, encompass the bacterial or archaeal species in which a Defense System was identified and sequenced. The skilled artisan would also appreciate that the term “host cell” may in certain embodiments, encompass bacterial or archaeal or eukaryotic cell in which a Defense System has been introduced. In some embodiments, the host cell does not endogenously comprise the Defense System introduced. In some embodiments, the host cell does not endogenously comprise a functional version of the Defense System introduced. In some embodiments, the host cell comprises the Defense System introduced but it is not functional in the host cell. In some embodiments, the host cell does not endogenously express the Defense System introduced. In some embodiments, the host cell does not endogenously express a functional version of the Defense System introduced.

Regardless of the method of introduction, in some embodiments provided herein are cells, for example but not limited to bacterial cells, which comprise a heterologous functional defense system, or components thereof. In some embodiments, the method of introduction is conjugation.

In some embodiments, the isolated cell is transformed or transfected with the described nucleic acid construct or nucleic acid construct Defense System, or a combination thereof.

In some embodiments, in some embodiments a combination of Defense Systems comprises a combination of the nucleic acid constructs comprising each Defense System. In some embodiments a combination of Defense systems comprises a combination of the nucleic acid constructs comprising a functional Defense System selected from Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments two defense systems are combined. In some embodiments 2-17 defense systems are combined. In some embodiments 2-5 defense systems are combined. In some embodiments 2-10 defense systems are combined. In some embodiments 5-10 defense systems are combined. In some embodiments 10-17 defense systems are combined. In some embodiments, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 defense systems are combined. In some embodiments 2-40 defense systems are combined. In some embodiments, multiple copies of the same Defense System are combined. In some embodiments, the combination comprises all different Defense Systems. In some embodiments a combination of Defense systems comprises any combination of the nucleic acid constructs comprising a functional Defense System selected from Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with any combination of Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 1-16 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 1 defense system selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 2 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 3 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 4 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 5 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 6 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 7 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 8 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 9 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 10 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 11 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 12 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 13 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 14 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 15 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ia comprises a combination of Defense System Ia with 16 defense systems selected from Defense Systems Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with any combination of Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ia with 1-16 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ia with 1 defense system selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 2 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 3 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 4 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 5 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 6 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 7 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 8 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 9 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 10 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 11 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 12 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 13 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 14 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 15 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System Ib comprises a combination of Defense System Ib with 16 defense systems selected from Defense Systems Ia, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with any combination of Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 1-16 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 1 defense system selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 2 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 3 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 4 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 5 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 6 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 7 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 8 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 9 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 10 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 11 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 12 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 13 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 14 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 15 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System II comprises a combination of Defense System II with 16 defense systems selected from Defense Systems Ia, Ib, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with any combination of Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 1 defense system selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIa comprises a combination of Defense System IIIa with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with any combination of Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIb comprises a combination of Defense System IIIb with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IIIc comprises a combination of Defense System IIIc with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IV comprises a combination of Defense System IV with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, V, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System V comprises a combination of Defense System V with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VI comprises a combination of Defense System VI with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VII, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VII comprises a combination of Defense System VII with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VIII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System VIII comprises a combination of Defense System VIII with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, IX, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc. In some embodiments, a combination comprising a Defense System IX comprises a combination of Defense System IX with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, Xa, Xb, and Xc.

In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc. In some embodiments, a combination comprising a Defense System Xb comprises a combination of Defense System Xb with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xc.

In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 1-16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 1 defense system selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 2 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 3 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 4 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 5 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 6 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 7 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 8 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 9 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 10 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 11 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 12 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 13 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 14 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 15 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb. In some embodiments, a combination comprising a Defense System Xc comprises a combination of Defense System Xc with 16 defense systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, VI, V, VI, VII, VIII, IX, Xa, and Xb.

In some embodiments, a combination of Defense Systems disclosed herein above, does not naturally occur in nature. In some embodiments, a combination of Defense Systems disclosed herein above, does not naturally occur in a host cell. In some embodiments, a combination of Defense Systems disclosed herein above, does not naturally occur in bacterial cell. In some embodiments, a combination of Defense Systems disclosed herein above, does not naturally occur in an archaeal cell. In some embodiments, a combination of Defense Systems disclosed herein above, does not naturally occur in a eukaryotic cell. In some embodiments, a combination of Defense Systems disclosed herein above, does not naturally occur in a species disclosed in Tables 6-19C. In some embodiments, a combination of Defense Systems disclosed herein above, does not naturally occur in a host cell.

In some embodiments, a combination of Defense Systems disclosed herein above, is not expressed together in nature. In some embodiments, a combination of Defense Systems disclosed herein above, is not naturally expressed in a host cell. In some embodiments, a combination of Defense Systems disclosed herein above, is not naturally expressed in bacterial cell. In some embodiments, a combination of Defense Systems disclosed herein above, is not naturally expressed in an archaeal cell. In some embodiments, a combination of Defense Systems disclosed herein above, is not naturally expressed in a eukaryotic cell. In some embodiments, a combination of Defense Systems disclosed herein above, is not naturally expressed in a species disclosed in Tables 6-17.

In some embodiments, a combination of functional Defense Systems disclosed herein above, does not naturally occur in nature. In some embodiments, a combination of functional Defense Systems disclosed herein above, does not naturally occur in a host cell. In some embodiments, a combination of functional Defense Systems disclosed herein above, does not naturally occur in bacterial cell. In some embodiments, a combination of functional Defense Systems disclosed herein above, does not naturally occur in an archaeal cell. In some embodiments, a combination of functional Defense Systems disclosed herein above, does not naturally occur in a eukaryotic cell. In some embodiments, a combination of functional Defense Systems disclosed herein above, does not naturally occur in a species disclosed in Tables 6-19C. In some embodiments, a combination of functional Defense Systems disclosed herein above, does not naturally occur in a host cell.

In some embodiments, a cell comprising a combination of Defense Systems disclosed herein above, does not naturally occur in nature. In some embodiments, a cell comprising a combination of functional Defense Systems disclosed herein above, does not naturally occur in nature.

In some embodiments, a nucleic acid constructs, comprised in a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, encodes a polycistronic mRNA comprising said nucleic acid sequences. In some embodiments, a nucleic acid constructs, comprised in a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, encodes a polycistronic mRNA comprising said nucleic acid sequences encoding said polypeptides. In some embodiments, a nucleic acid constructs, comprised in a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, encodes a polycistronic mRNA comprising said nucleic acid sequences encoding components or functional portions thereof, of a Defense System.

Various construct schemes can be utilized to express few genes from a single nucleic acid construct. In some embodiments, the construct encodes a polycistronic mRNA comprising the nucleic acid sequences. In some embodiments, the nucleic acid sequences can be co-transcribed as a polycistronic message from a single promoter sequence of the nucleic acid construct. To enable co-translation of all the genes from a single polycistronic message, the different nucleic acid sequence segments can be transcriptionally fused via linker sequence including an internal ribosome entry site (IRES) sequence, which enables the translation of the nucleic acid sequence segment downstream of the IRES sequence. In this case, a transcribed polycistronic RNA molecule including the coding sequences of different combinations of the nucleic acid sequences, for example as disclosed herein, will be translated from both the capped 5′ end and the internal IRES sequence of the polycistronic RNA molecule.

In some embodiments, each two nucleic acid sequence segments can be translationally fused via protease recognition site cleavable by a protease expressed by the cell to be transformed with the nucleic acid construct. In this case, a chimeric polypeptide translated will be cleaved by the cell expressed protease.

In some embodiments, the nucleic acid construct can include at least two Cis acting regulatory elements each being for separately expressing a distinct nucleic acid sequence. These at least two Cis acting regulatory elements can be identical or distinct.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System disclosed herein. In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System disclosed herein. In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising three components of a Defense System disclosed herein. In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising four components of a Defense System disclosed herein. In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising five components of a Defense System disclosed herein.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System Ia or a Defense System Ib, said component selected from the group consisting of a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, a ZorD polypeptide, and a ZorE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System Ia or a Defense System Ib, said component selected from the group consisting of a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, a ZorD polypeptide, and a ZorE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising three components of a Defense System Ia or a Defense System Ib, said component selected from the group consisting of a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, a ZorD polypeptide, and a ZorE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising four components of a Defense System Ia or a Defense System Ib, said component selected from the group consisting of a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, a ZorD polypeptide, and a ZorE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising greater than four components of a Defense System Ia or a Defense System Ib, said component selected from the group consisting of a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, a ZorD polypeptide, and a ZorE polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System II, said component selected from the group consisting of a ThsA polypeptide and a ThsB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System II, said component selected from the group consisting of a ThsA polypeptide and a ThsB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than two components of a Defense System II, said component selected from the group consisting of a ThsA polypeptide and a ThsB polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System IIIa, said component selected from the group consisting of a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System IIIa, said component selected from the group consisting of a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising three components of a Defense System IIIa, said component selected from the group consisting of a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising four components of a Defense System IIIa, said component selected from the group consisting of a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising five components of a Defense System IIIa, said component selected from the group consisting of a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than five components of a Defense System IIIa, said component selected from the group consisting of a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System IIIb, said component selected from the group consisting of a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System IIIb, said component selected from the group consisting of a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising three components of a Defense System IIIb, said component selected from the group consisting of a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising four components of a Defense System IIIb, said component selected from the group consisting of a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising five components of a Defense System IIIb, said component selected from the group consisting of a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than five components of a Defense System IIIb, said component selected from the group consisting of a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, a DruE polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System IIIc, said component selected from the group consisting of a DruH polypeptide a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System IIIc, said component selected from the group consisting of a DruH polypeptide a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising three components of a Defense System IIIc, said component selected from the group consisting of a DruH polypeptide a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising four components of a Defense System IIIc, said component selected from the group consisting of a DruH polypeptide a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising five components of a Defense System IIIc, said component selected from the group consisting of a DruH polypeptide a DruE polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than five components of a Defense System IIIc, said component selected from the group consisting of a DruH polypeptide a DruE polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System IV, said component selected from the group consisting of a HamA polypeptide and a HamB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System IV, said component selected from the group consisting of a HamA polypeptide and a HamB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than two components of a Defense System IV, said component selected from the group consisting of a HamA polypeptide and a HamB polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System V, said component selected from the group consisting of a SduA polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than one component of a Defense System V, said component selected from the group consisting of a SduA polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System VI, said component selected from the group consisting of a GajA polypeptide and a GajB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System VI, said component selected from the group consisting of a GajA polypeptide and a GajB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than two components of a Defense System VI, said component selected from the group consisting of a GajA polypeptide and a GajB polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System VII, said component selected from the group consisting of a PtuA polypeptide and a PtuB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System VII, said component selected from the group consisting of a PtuA polypeptide and a PtuB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than two components of a Defense System VII, said component selected from the group consisting of a PtuA polypeptide and a PtuB polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System VIII, said component selected from the group consisting of a LmuA polypeptide and a LmuB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System VIII, said component selected from the group consisting of a LmuA polypeptide and a LmuB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than two components of a Defense System VIII, said component selected from the group consisting of a LmuA polypeptide and a LmuB polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System IX, said component selected from the group consisting of a KwaA polypeptide and a KwaB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System IX, said component selected from the group consisting of a KwaA polypeptide and a KwaB polypeptide. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than two components of a Defense System IX, said component selected from the group consisting of a KwaA polypeptide and a KwaB polypeptide.

In some embodiments, disclosed herein is an isolated polypeptide comprising an amino acid sequence comprising one component of a Defense System Xa or a Defense System Xb or a Defense System Xc, said component selected from the group consisting of a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, and variants thereof. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising two components of a Defense System Xa or a Defense System Xb or a Defense System Xc, said component selected from the group consisting of a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, and variants thereof. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising three components of a Defense System Xa or a Defense System Xb or a Defense System Xc, said component selected from the group consisting of a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, and variants thereof. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising four components of a Defense System Xa or a Defense System Xb or a Defense System Xc, said component selected from the group consisting of a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, and variants thereof. In some embodiments, is an isolated polypeptide comprising an amino acid sequence comprising more than four components of a Defense System Xa or a Defense System Xb or a Defense System Xc, said component selected from the group consisting of a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, and a JetD polypeptide, and variants thereof.

In some embodiments, the isolated polypeptide comprising an amino acid sequence of a Defense System has an anti-phage activity. In some embodiments, the isolated polypeptide comprising an amino acid sequence of a Defense System has an anti-plasmid activity. In some embodiments, the isolated polypeptide comprising an amino acid sequence of a Defense System has an anti-phage activity and an anti-plasmid activity. In some embodiments, the anti-phage activity is against at least one phage. In some embodiments, the anti-phage activity is against more than one phage.

In some embodiments, any one of said constructs disclosed herein, comprises multiple nucleic acid sequences, each sequence encoding at least one of said polypeptides. In some embodiments, any one of said constructs disclosed herein, comprises multiple nucleic acid sequences, each sequence encoding at least a functional portion of one of said polypeptides. In some embodiments, any one of said constructs disclosed herein, comprises multiple nucleic acid sequences, each sequence encoding at least one component of a Defense System. In some embodiments, any one of said constructs disclosed herein, comprises multiple nucleic acid sequences, each sequence encoding at least one functional component of a Defense System. In some embodiments, any one of said constructs disclosed herein, comprises multiple nucleic acid sequences, each sequence encoding at least one functional portion of a component of a Defense System.

As used herein, the terms designating a polypeptide, for example the terms “ZorA”, “ZorB”, “ZorC”, “ZorD”, “ZorE”, “ThsA”, “ThsB”, “DruA”, “DruB”, “DruC”, “DruD”, “DruE”, DruM”, “DruF”, “DruG”, “DruH”, “HamA”, “HamB”, “SduA”, “GajA”, “GajB”, “PtuA”, “PtuB”, “LmuA”, “LmuB”, “KwaA”, “KwaB”, “JetA”, “JetB”, “JetC”, “JetD”, “JetA^(ii)”, “JetB^(ii)”, “JetC^(ii)”, “JetD^(ii)”, “JetAi^(ii)”, “JetB^(iii)”, “JetC^(iii)”, and “JetD^(iii)”, in some embodiments comprise full length polypeptides, respectively. In some embodiments, the terms designating a polypeptide, for example the terms “ZorA”, “ZorB”, “ZorC”, “ZorD”, “ZorE”, “ThsA”, “ThsB”, “DruA”, “DruB”, “DruC”, “DruD”, “DruE”, DruM”, “DruF”, “DruG”, “DruH”, “HamA”, “HamB”, “SduA”, “GajA”, “GajB”, “PtuA”, “PtuB”, “LmuA”, “LmuB”, “KwaA”, “KwaB”, “JetA”, “JetB”, “JetC”, “JetD”, “JetA^(ii)”, “JetB^(ii)” “JetC^(ii)” “JetD^(ii)”, “JetAi^(ii)”, “JetB^(iii)”, “JetC^(iii)”, and “JetD^(iii)”, comprise a fragment of the full length polypeptide, wherein the fragment maintains the activity as disclosed herein.

Similarly, the terms designating a gene, for example the terms “zorA”, “zorB”, “zorC”, “zorD”, “zorE”, “thsA”, “thsB”, “druA”, “druB”, “druC”, “druD”, “druE”, “druM”, “druF”, “druG”, “druH”, “hamA”, “hamB”, “sduA”, “gajA”, “gajB”, “ptuA”, “ptuB”, “lmuA”, “lmuB”, “kwaA”, “kwaB”, “jetA”, “jetB”, “jetC”, “jetD”, “jetA^(ii)”, “jetB^(ii)”, “jetC^(ii)”, “jetD^(i)”, “jetA^(iii)”, “jetB^(iii)”, “jetC^(iii)”, and “jetD^(iii)”, in some embodiments comprise a full length gene, respectively. In some embodiments, the terms designating a gene, for example the terms “zorA”, “zorB”, “zorC”, “zorD”, “zorE”, “thsA”, “thsB”, “druA”, “druB”, “druC”, “druD”, “druE”, “druM”, “druF”, “druG”, “druH”, “hamA”, “hamB”, “sduA”, “gajA”, “gajB”, “ptuA”, “ptuB”, “lmuA”, “lmuB”, “kwaA”, “kwaB”, “jetA”, “jetB”, “jetC”, “jetD”, “jetA^(ii)”, “jetB^(ii)”, “jetC^(ii)”, “jetD^(ii)”, “jetA^(iii)”, “jetB^(iii)”, “jetC^(iii)”, and “jetD^(iii)”, comprise a fragment of the full length gene, wherein the fragment encodes a polypeptide, respectively, comprising the activity as disclosed herein.

In some embodiments, a construct comprising the nucleic acid sequence encoding the ZorA polypeptide, the ZorB polypeptide, the ZorC polypeptide, and the ZorD polypeptide, comprises a nucleic acid sequence having at least 80% homology with the sequence referenced in Table 8 rows 2-1174 columns G, AD, and AE or the sequence set forth in SEQ ID NO: 14, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 8 rows 2-1830 columns J and L (encoding ZorA polypeptide), in Table 8 rows 2-1830 columns N and P (encoding ZorB polypeptide), in Table 8 rows 2-1174 columns R and T (encoding ZorC polypeptide), and in Table 8 rows 2-1174 columns V and X (encoding ZorD polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the ZorA polypeptide, the ZorB polypeptide, and the ZorE polypeptide comprises a nucleic acid sequence having at least 80% homology to the sequence referenced in Table 8 rows 1175-1830 columns G, AD and AE, or the sequence set forth in SEQ ID NO: 15, or comprises nucleic acid sequences having at least 80% homology to the sequences referenced in Table 8 rows 2-1830 columns J and L (encoding ZorA polypeptide), in Table 8 rows 2-1830 columns N and P (encoding ZorB polypeptide), and in Table 8 rows 1175-1830 columns Z and AB (encoding ZorE polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the ThsA polypeptide and the ThsB polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequence referenced in Table 9 rows 2-2100 columns G, AG and AH, or the sequence set forth in SEQ ID NO: 10 or SEQ ID NO: 11, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 9 rows 2-2100 columns I and K (encoding ThsA polypeptide) and the sequences referenced in Table 9 rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE (encoding ThsB polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the DruA polypeptide, the DruB polypeptide, the DruC polypeptide, the DruD polypeptide, and the DruE polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 10 rows 2-123 columns G, AT, and AU or the sequence set forth in SEQ ID NO: 16, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 10 rows 2-123 columns J and L (encoding DruA polypeptide), referenced in Table 10 rows 2-123 columns N and P (encoding DruB polypeptide), referenced in Table 10 rows 2-123 columns R and T (encoding DruC polypeptide), referenced in Table 10 rows 2-123 columns V and X (encoding DruD polypeptide), and referenced in Table 10 rows 2-1343 columns Z and AB (encoding DruE polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the DruM polypeptide, the DruF polypeptide, the DruG polypeptide, and the DruE polypeptide, comprises a nucleic acid sequence having at least 80% homology with the sequence referenced in Table 10 rows 124-295 columns G, AT, and AU, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 10 rows 124-295 columns AD and AF (encoding DruM polypeptide), referenced in Table 10 rows 124-295 columns AH and AJ (encoding DruF polypeptide), referenced in Table 10 rows 124-295 columns AL and AN (encoding DruG polypeptide), and referenced in Table 10 rows 2-1343 columns Z and AB (encoding DruE polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the DruH polypeptide and the DruE polypeptide, comprises a nucleic acid sequence having at least 80% homology with the sequence referenced in Table 10 rows 296-1343 columns G, AT, and AU, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 10 rows 296-1343 columns AP and AR (encoding DruH polypeptide) and referenced in Table 10 rows 2-1343 columns Z and AB (encoding DruE polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the HamA polypeptide and the HamB polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 12 rows 2-1782 columns G, P, and Q or the sequence set forth in SEQ ID NO: 4, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 12 rows 2-1782 column H and J (encoding HamA polypeptide) and referenced in Table 12 rows 2-1782 column L and N (encoding HamB polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the SduA polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 13 rows 2-1247 columns H and J or columns G, L, and M, or the sequences set forth in SEQ ID NO: 9.

In some embodiments, a construct comprising the nucleic acid sequence encoding the GajA polypeptide and the GajB polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 14 rows 2-4599 columns G, P, and Q, or the sequence set forth in SEQ ID NO: 5 or SEQ ID NO: 6, or comprises nucleic acid sequences having at least 80% homology to at least one of each of sequences referenced in Table 14 rows 2-45-99 columns H and K (encoding GajA polypeptide) and referenced in Table 14 rows 2-45-99 columns L and N (encoding GajB polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the PtuA polypeptide and the PtuB polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 15 rows 2-2507 columns G, P and Q or the sequence set forth in SEQ ID NO: 12 or SEQ ID NO: 13, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 15 rows 2-2507 columns H and J (encoding PtuA polypeptide) and referenced in Table 15 rows 2-2507 columns L and N (encoding PtuB polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the LmuA polypeptide and the LmuB polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 16 rows 2-698 columns G, P, and Q, or the sequence set forth in SEQ ID NO: 7 or SEQ ID NO: 8, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 16 rows 2-698 column H (encoding LmuA polypeptide) and sequences referenced in Table 16 rows 2-698 column J (encoding LmuB polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the KwaA polypeptide and the KwaB polypeptide comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 17 rows 2-935 columns G, P, and Q, or the sequence set forth in SEQ ID NO: 3, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 17 rows 2-935 columns H and J (encoding KwaA polypeptide) and referenced in Table 17 rows 2-935 columns L and N (encoding KwaB polypeptide).

In some embodiments, a construct comprising the nucleic acid sequence encoding the JetA polypeptide, the JetB polypeptide, the JetC polypeptide, and the JetD comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 11 rows 2-2322 columns G, Z, and AA, or the sequence set forth in SEQ ID NO: 17, or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 11 rows 2-2322 columns J and L (encoding JetA polypeptide), referenced in Table 11 rows 2-2322 columns N and P (encoding JetB polypeptide), referenced in Table 11 rows 2-2322 columns R and T (encoding JetC polypeptide) and referenced in Table 11 rows 2-2322 columns V and X (encoding JetD polypeptide);

In some embodiments, a construct comprising the nucleic acid sequence encoding the JetA^(ii) polypeptide, the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the JetD^(ii) comprises a nucleic acid sequence having at least 80% homology with the sequences referenced in Table 11 rows 2323-2844 columns G, Z, and AA, or the sequence set forth in SEQ ID NO: 18 or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 11 rows 2323-2844 columns J and L (encoding JetA^(ii) polypeptide), referenced in Table 11 rows 2323-2844 columns N and P (encoding JetB^(ii) polypeptide), referenced in Table 11 rows 2323-2844 columns R and T (encoding JetC^(ii) polypeptide) and referenced in Table 11 rows 2323-2844 columns V and X (encoding JetD^(ii) polypeptide);

In some embodiments, a construct comprising the nucleic acid sequence encoding the JetA^(iii) polypeptide, the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the JetD^(iii) comprises a nucleic acid sequence having at least 80% homology with the sequences set forth in Table 11 rows 2845-3174 columns G, Z, and AA, or the sequence set forth in SEQ ID NO: 19 or comprises nucleic acid sequences having at least 80% homology to at least one of each of the sequences referenced in Table 11 rows 2845-3174 columns J and L (encoding JetA^(iii) polypeptide), referenced in Table 11 rows 2845-3174 columns N and P (encoding JetB^(iii) polypeptide), referenced in Table 11 rows 2845-3174 columns R and T (encoding JetC ill polypeptide) and referenced in Table 11 rows 2845-3174 columns V and X (encoding JetD^(iii) polypeptide).

In some embodiments, a construct comprising a nucleic acid sequence comprises multiple copies of a nucleic acid sequence encoding a component of the Defense System. In some embodiments, a construct comprising a nucleic acid sequence comprises multiple copies of a nucleic acid sequence encoding two components of the Defense System. In some embodiments, a construct comprising a nucleic acid sequence comprises multiple copies of a nucleic acid sequence encoding three components of the Defense System. In some embodiments, a construct comprising a nucleic acid sequence comprises multiple copies of a nucleic acid sequence encoding four components of the Defense System. In some embodiments, a construct comprising a nucleic acid sequence comprises multiple copies of a nucleic acid sequence encoding five components of the Defense System. In some embodiments, a construct comprising a nucleic acid sequence comprises multiple copies of a nucleic acid sequence encoding more than components of the Defense System. In some embodiments, multiple copies comprise more than one copy. In some embodiments, multiple copies comprise 2 copies. In some embodiments, multiple copies comprise 2-10 copies. In some embodiments, multiple copies comprise 3 copies, 4 copies, 5 copies, 6 copies, 7 copies, 8 copies, 9 copies, or 10 copies.

In some embodiments, a Defense System disclosed herein provides a host cell with resistance to a foreign nucleic acid invasion. In some embodiments, a Defense System disclosed herein provides a bacterial cell with resistance to a foreign nucleic acid invasion. In some embodiments, a Defense System disclosed herein provides a bacterial cell with protection to foreign nucleic acid invasion.

In some embodiments, a method disclosed herein protects a host cell from foreign nucleic acid invasion, said method comprising a step of introducing into the host cell at least one defense system described herein. In some embodiments, a method disclosed herein protects a host cell from foreign nucleic acid invasion, said method comprising a step of introducing into the host cell at least one function defense system described herein. In some embodiments, a method disclosed herein protects a bacterial cell from foreign nucleic acid invasion, said method comprising a step of introducing into the bacterial cell at least one defense system described herein. In some embodiments, a method disclosed herein protects a bacterial cell from foreign nucleic acid invasion, said method comprising a step of introducing into the bacterial cell at least one function defense system described herein.

In some embodiments, protecting a host cell from foreign nucleic acid invasion comprises protecting from phage infection, protecting from plasmid transformation, or protection from conjugative element entry, or any combination thereof. In some embodiments, protecting a bacterial cell from foreign nucleic acid invasion comprises protecting from phage infection, protecting from plasmid transformation, or protection from conjugative element entry, or any combination thereof. In some embodiments, protection from phage infection comprises protection from at least one phage infection.

In some embodiments, a nucleic acid construct comprising any one of the defense systems described herein or any combination thereof, provides a host cell with resistance to foreign nucleic acid invasion. In some embodiments, a nucleic acid construct comprising any one of the defense systems described herein or any combination thereof, provides protection from foreign nucleic acid invasion to a host cells.

In some embodiments, a nucleic acid construct comprising any one of the defense systems described herein or any combination thereof, provides a bacterial cell with resistance to foreign nucleic acid invasion. In some embodiments, a nucleic acid construct comprising any one of the defense systems described herein or any combination thereof, provides protection from foreign nucleic acid invasion to a bacterial cells.

In some embodiments, a Defense System disclosed herein provides a host cell with resistance to at least one phage. In some embodiments, a Defense System disclosed herein provides a host cell with resistance to a plasmid. In some embodiments, a Defense System disclosed herein provides a host cell with resistance to a combination of at least one phage and a plasmid.

In some embodiments, a Defense System selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, provides a host cell with resistance to at least one phage. In some embodiments, a Defense selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, provides a host cell with resistance to a plasmid. In some embodiments, a Defense System selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, provides a host cell with resistance to a combination of at least one phage and a plasmid.

In some embodiments, a defense system comprising a combination of Defense Systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, provides a host cell with resistance to at least one phage. In some embodiments, a defense system comprising a combination of Defense Systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, provides a host cell with resistance to a plasmid. In some embodiments, a defense system comprising a combination of Defense Systems selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, provides a host cell with resistance to a combination of at least one phage and a plasmid.

In some embodiments, resistance is to at least one phage. In some embodiments, resistance to at least one phage comprises resistance to more than one phage. In some embodiments, resistance is to phage comprises resistance to phages from different families (See for example FIGS. 3B and 3C, and FIG. 5D).

A skilled artisan would appreciate that the term “phage” or “bacteriophage” refers to a virus that selectively infects one or more bacterial species. Many phages are specific to a particular genus or species or strain of bacteria. In some embodiments, a phage or a bacteriophage selectively infects one or more archaeal species. Many phages are specific to a particular genus or species or strain of archaea.

In some embodiments, the phage genome can be ssDNA, dsDNA, ssRNA, or dsRNA. In some embodiments, the phage genome is linear. In some embodiments, the phage genome is circular. In some embodiments, the phage is virulent to bacteria. In some embodiments, the phage is virulent to archaea. In some embodiments, the phage is virulent to bacteria and archaea.

In some embodiments, the phage is a lytic phage. In some embodiments, the phage is temperate (also referred to as lysogenic). In some embodiments, the phage is a lytic phage selected from the group consisting of Nf, SP82G and SPO1. In some embodiments, the phage is Nf. In some embodiments, the phage is SPO1. In some embodiments, the phage is a temperate phage selected from the group consisting of phi3T and phi105. In some embodiments, the phage is phi3T.

In some embodiments, phage as disclosed herein include, but are not limited to, phages that belong to any of the following virus families: Caudavirales, Corticoviridae, Cystoviridae, Inoviridae, Leviviridae, Microviridae, Myoviridae, Podoviridae, Siphoviridae, or Tectiviridae. In some embodiments, the phage is a podovirus, a myovirus or a siphovirus phage. In some embodiments, the phage is a T7 or a lambda-vir phage. In some embodiments, a phage comprises phage that infect bacteria that are pathogenic to plants and/or animals (including humans).

In some embodiments, the resistance of a host cell comprising a defense system against a phage is improved as compared to a host cell of the same species, which does not include a defense system disclosed herein.

Assays for testing phage resistance are well known in the art. Thus, for example, the lysogenic activity of a phage can be assessed by PCR or DNA sequencing. The DNA replication activity of a phage can be assessed e.g. by DNA sequencing or Southern blot analysis.

The lytic activity of a phage can be assessed e.g. by optical density, plaque assay or living dye indicators. The lytic activity of a phage can be measured indirectly by following the decrease in optical density of the bacterial cultures owing to lysis. This method involves introduction of phage into a fluid bacterial culture medium. After a period of incubation, the phage lyses the bacteria in the broth culture resulting in a clearing of the fluid medium resulting in decrease in optical density.

Another method, known as the plaque assay, introduces phage into a few milliliters of soft agar along with some bacterial host cells. This soft agar mixture is laid over a hard agar base (seeded-agar overlay). The phage adsorbs onto the host bacterial cells, infect and lyse the cells, and then begin the process anew with other bacterial cells in the vicinity. After 6-24 hours, zones of clearing on the plate, known as plaques, are observable within the lawn of bacterial growth on the plate. Each plaque represents a single infective phage particle in the original sample.

Yet another method is the one-step phage growth curve which allows determining the production of progeny virions by cells as a function of time after infection. The assay is based on the fact that cells in the culture are infected simultaneously with a low number of phages so that no cell can be infected with more than one phage. At various time intervals, samples are removed for a plaque assay allowing quantitative determination of the number of phages present in the medium.

Other methods use for example redox chemistry, employing cell respiration as a universal reporter. During active growth of bacteria, cellular respiration reduces a dye (e.g., tetrazolium dye) and produces a color change that can be measured in an automated fashion. On the other hand, successful phage infection and subsequent growth of the phage in its host bacterium results in reduced bacterial growth and respiration and a concomitant reduction in color.

Thus, nucleic acid sequences encoding a Defense System component(s) or functional fragments thereof, and the polypeptides and nucleic acid constructs disclosed herein can be used in conferring phage resistance thereby protecting bacteria from phage infection.

In some embodiments, “conferring phage resistance” refers to the level of phage infection and/or multiplication in the e.g. bacteria containing a functional Defense System as disclosed herein, that does not cause a deleterious effect to the bacteria e.g., growth arrest or death.

In some embodiments, the phage has about 10-10,000 times lower efficiency of plaquing on bacteria containing a functional Defense System. In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System Ia ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System Ia ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System Ia ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System Ib ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System II ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System III (Type I, Type II, and Type III) ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System IV ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System V ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System VI ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System VII ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System VIII ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System IX ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System Xa ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System Xb ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a functional Defense System Xc ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours.

In some embodiments, the phage has about 100-100,000 times lower efficiency of plaquing on bacteria containing a combination of functional Defense Systems ([EOP]=10⁻²), about 1000 times lower EOP (EOP=10⁻³), 10,000 times lower EOP (EOP=10⁻⁴), or 100,000 times lower EOP (EOP=10⁻⁵). In some embodiments, the level of phage multiplication in a culture is measured after about 6-14 hours incubation of the culture, e.g., after about 12 hours, after about 9 hours, after about 8 hours after about 7 hours, or after about 6 hours. In some embodiments, the combination of Defense Systems comprises any combination of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc as described herein.

In some embodiments, a Defense System provides resistance is to a plasmid. In some embodiments, the resistance of a host cell comprising a defense system against a phage is improved as compared to a host cell of the same species, which does not include a defense system disclosed herein. In some embodiments, a plasmid comprises an episomal plasmid. In some embodiments, a plasmid comprises an integrative plasmid. In some embodiments, resistance to a plasmid comprises decrease transformation efficiency of the plasmid. In some embodiments, resistance to a plasmid comprises decrease transformation efficiency of the episomal plasmid.

In some embodiments, a nucleic acid sequences encoding a Defense System component(s) or functional fragments thereof, and the polypeptides and nucleic acid constructs disclosed herein can be used in protecting bacteria from conjugative elements. In some embodiments, disclosed herein is a method of protecting bacteria from conjugative elements, the method comprising the step of introducing into the bacteria a defense system selected from Defense Systems Ia-Xc, or a combination thereof. In some embodiments, disclosed herein is a method of protecting bacteria from conjugative elements, the method comprising the step of introducing into the bacteria a functional defense system selected from Defense Systems Ia-Xc, or a combination thereof. In some embodiments, disclosed herein is a method of protecting bacteria from conjugative elements, the method comprising the step of introducing into the bacteria at least one component of a defense systems selected from Defense Systems Ia-Xc, or a combination thereof.

A skilled artisan would appreciate that a method protecting bacteria from conjugative elements, would in some embodiments, encompass a reduction in the horizontal gene transfer between bacteria. The steps of conjugation known in the art comprise an initial step of cell-to-cell contact during mating pair formation, followed by a transfer of gene(s)/genetic elements in three steps. The DNA is nicked at the origin of transfer, wherein the nicking enzyme binds covalently to one of the DNA strands. The nucleoprotein filament is then coupled to the type 4 secretion system (T4SS) and transferred to the recipient cell. Finally, the element is replicated in the original and novel hosts leading to double stranded DNA molecules in each cell. (Cury et al. (2017) Nucleic Acids Res. September 6; 45(15): 8943-8956).

In some embodiments, a method of protecting bacteria from conjugative elements inhibits or reduces cell-to-cell contact or mating pair formation. In some embodiments, a method of protecting bacteria from conjugative elements inhibits or reduces nicking of the DNA strand. In some embodiments, a method of protecting bacteria from conjugative elements inhibits or reduces transfer of the DNA into the recipient cell. In some embodiments, a method of protecting bacteria from conjugative elements inhibits or reduces replication of the element in the novel host comprising a defense system described herein, a combination thereof, of at least one element thereof. In some embodiments, the conjugative element comprises a plasmid. In some embodiments, the conjugative element comprises a transposon.

In some embodiments, there is provided an article of manufacture or a kit identified for providing bacterial resistance, or plasmid transformation, or bacterial resistance and plasmid transformation to a microbial cell, for example but not limited to bacteria, comprising a defense system disclosed herein. In some embodiments, the article of manufacture or kit is for use producing bacteria resistant to at least one phage, wherein the bacteria do not naturally comprise the defense system. In some embodiments, the article of manufacture or kit is for use producing bacteria resistant to plasmid transformation, wherein the bacteria do not naturally comprise the defense system. In some embodiments, the article of manufacture or kit is for use producing bacteria resistant to at least one phage and resistant to plasmid transformation, wherein the bacteria do not naturally comprise the defense system.

In some embodiments, the defense system comprises at least 2 Defense Systems, wherein the bacteria do not naturally comprise the at least 2 Defense Systems. In some embodiments, the defense system comprises any of Defense Systems Ia-Xc or a combination thereof, wherein the bacteria do not naturally comprise the Defense System or combination of systems. In some embodiments, the defense system comprises a combination of Defense systems selected from Defense Systems Ia-Xc, wherein the bacteria do not naturally comprise the combination of Defense Systems present in the article of manufacture or the kit.

In some embodiments, a Defense System described herein is packaged in a container. In some embodiments, different Defense Systems are packaged in separate containers. In some embodiments, different Defense Systems are packaged in the same containers. In some embodiments, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 different Defense Systems are packaged in the same containers. In some embodiments, the different Defense Systems are in a co-formulation. In some embodiments, different Defense Systems are packaged in transportable containers.

In some embodiments, a container comprising a Defense Systems described herein comprises lyophilized components of said Defense System. In some embodiments, a container comprising at least two Defense Systems described herein comprises lyophilized components of said Defense Systems. In some embodiments, a container comprising at least 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 Defense Systems described herein comprises lyophilized components of said Defense Systems. In some embodiments, Defense Systems components are co-formulated and lyophilized and stored in a container.

In some embodiments, a container comprising a Defense Systems described herein comprises spray-dried components of said Defense System. In some embodiments, a container comprising at least two Defense Systems described herein comprises spray-dried components of said Defense Systems. In some embodiments, a container comprising at least 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 Defense Systems described herein comprises spray-dried components of said Defense Systems. In some embodiments, Defense Systems components are co-formulated and spray-dried and stored in a container.

In some embodiments, a container comprising a Defense Systems described herein comprises components of said Defense System in a liquid formulation. In some embodiments, a container comprising at least two Defense Systems described herein comprises components of said Defense Systems in a liquid formulation. In some embodiments, a container comprising at least 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 Defense Systems described herein comprises components of said Defense Systems in a liquid formulation. In some embodiments, Defense Systems components are co-formulated and stored in a container in a liquid formulation.

In some embodiments, a Defense system stored in a container comprises a full complement of components. In some embodiments, a Defense system stored in a container comprises less than a full complement of components. In some embodiments, a Defense system stored in a container comprises at least one component of the Defense system. In some embodiments, a Defense system stored in a container comprises at least 1, 2, 3, 4, or 5 component of the Defense system. In some embodiments, a Defense system stored in a container comprises between about 1-10 component of the Defense system. In some embodiments, a Defense system stored in a container comprises more than components of the Defense system. In some embodiments, a Defense system stored in a container comprises different numbers of components of different Defense systems. For example but not limited to, in some embodiments a container comprises a full complement of components of one Defense System and less than a full complement of components of another Defense system.

Methods of Use of a Defense System or Combinations Thereof

Defense systems have been described in detail above, as has the combination of Defense Systems each comprising a nucleic acid construct. In some embodiments, methods of use a defense system disclosed herein comprises use of a single Defense System comprising a nucleic acid construct, selected from Defense Systems Ia, Ib, II, IIIa, IIIa, IIIa, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, methods of use of a defense system comprises use of a combination of Defense Systems comprising nucleic acid constructs selected from Defense systems Ia, Ib, II, IIIa, IIIa, IIIa, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, as disclosed herein.

Methods of use of a defense system described herein include but are not limited to, methods of protecting bacteria from phage infection, methods of protecting bacteria from plasmid transformation, methods of protecting bacteria from conjugative elements, methods of protecting bacteria from any combination of phage infection, conjugative elements, and plasmid transformation, methods of producing bacteria resistant to phage infection; methods of producing bacteria resistant to plasmids; methods of producing bacteria protected from conjugative elements, methods of producing bacteria resistant to phage infection, conjugative elements, or plasmids, or any combination thereof; and methods of making a food, a food additive, a feed, a nutritional supplement, a probiotic supplement, a personal care product, a health care product, and/or a veterinary product.

In some embodiments, a method of use described herein comprises a method of protecting a host cell from foreign nucleic acid invasion. A method of use described herein comprises a method of protecting a bacterial cell from foreign nucleic acid invasion.

In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises introducing into the host cells at least one defense system described herein. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises introducing into the host cells a combination of defense systems described herein. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises introducing into the host cells at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 defense system described herein.

In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises introducing into the host cells at least one functional defense system described herein. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises introducing into the host cells a combination of functional defense systems described herein. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises introducing into the host cells at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 functional defense system described herein. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises introducing into the host cells at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 functional and non-functional defense system described herein.

In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises introducing into the bacterial cells at least one defense system described herein. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises introducing into the bacterial cells a combination of defense systems described herein. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises introducing into the bacterial cells at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 defense system described herein.

In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises introducing into the bacterial cells at least one functional defense system described herein. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises introducing into the bacterial cells a combination of functional defense systems described herein. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises introducing into the bacterial cells at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 functional defense system described herein. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises introducing into the bacterial cells at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 functional and non-functional defense system described herein.

In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from phage infection. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from at least one phage infection. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from more than one phage infection. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from plasmid transformation. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from at least one plasmid transformation. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from more than one plasmid transformation. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from entry of conjugative elements. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from entry of at least one conjugative element. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from entry of more than one conjugative elements. In some embodiments, a method of protecting a host cell from foreign nucleic acid invasion comprises protecting said host cell from any combination of phage infection, plasmid transformation, and entry of conjugative elements.

In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from phage infection. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from at least one phage infection. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from more than one phage infection. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from plasmid transformation. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from at least one plasmid transformation. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from more than one plasmid transformation. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from entry of conjugative elements. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from entry of at least one conjugative element. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from entry of more than one conjugative elements. In some embodiments, a method of protecting a bacterial cell from foreign nucleic acid invasion comprises protecting said bacterial cell from any combination of phage infection, plasmid transformation, and entry of conjugative elements.

In some embodiments, a method disclosed herein comprises the use of a defense system described herein, for protecting bacteria from phage infection. In some embodiments, a method disclosed herein comprises a method of protecting bacteria from plasmid transformation. In some embodiments, a method disclosed herein comprises a method of protecting bacteria from conjugative elements. In some embodiments, a method disclosed herein comprises a method of protecting bacteria from phage infection, and/or conjugative elements, and/or plasmid transformation. In some embodiments, a method disclosed herein comprises a method of producing bacteria resistant to phage infection. In some embodiments, a method disclosed herein comprises a method of producing bacteria resistant to plasmids. In some embodiments, a method disclosed herein comprises a method of producing bacteria resistant to conjugative elements. In some embodiments, a method disclosed herein comprises a method of producing bacteria resistant to phage infection, and/o conjugative elements, and/or plasmids.

In some embodiments, a method disclosed herein comprises a method of making a food. In some embodiments, a method disclosed herein comprises a method of making a food additive. In some embodiments, a method disclosed herein comprises a method of making a feed. In some embodiments, a method disclosed herein comprises a method of making a nutritional supplement. In some embodiments, a method disclosed herein comprises a method of making a probiotic supplement. In some embodiments, a method disclosed herein comprises a method of making a personal care product. In some embodiments, a method disclosed herein comprises a method of making a health care product. In some embodiments, a method disclosed herein comprises a method of making a veterinary product.

In some embodiments, disclosed herein is a method of protecting bacteria from phage infection, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to at least one phage, or being resistant to a plasmid, or being resistant to at least one phage and a plasmid.

In some embodiments, disclosed herein is a method of protecting bacteria from plasmid transformation, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to at least one phage, or being resistant to a plasmid, or being resistant to at least one phage and a plasmid.

In some embodiments, disclosed herein is a method of protecting bacteria from conjugative elements, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to at least one conjugative elements.

In some embodiments, disclosed herein is a method of protecting bacteria from any combination of phage infection, conjugative elements, and plasmid transformation, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to at least one phage, or being resistant to a plasmid, or being resistant to a conjugative element, or being resistant to a combination of at least one phage, a conjugative element, and a plasmid.

In some embodiments, disclosed herein is a method of producing bacteria resistant to phage infection, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method produces bacteria resistant to at least one phage.

In some embodiments, disclosed herein is a method of producing bacteria resistant to plasmid transformation, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method produces bacteria resistant to a plasmid transformation.

In some embodiments, disclosed herein is a method of producing bacteria resistant to conjugative elements, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method produces bacteria resistant to conjugative elements.

In some embodiments, disclosed herein is a method of producing bacteria resistant to any combination of phage infection, conjugative elements, and plasmid transformation, said method comprising the step of introducing into bacteria a defense system comprising at least one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method produces bacteria resistant to any combination of phage infection, conjugative elements, and plasmid transformation.

In some embodiments, the defense system used in a method disclosed herein comprises one of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, and a Defense System Xc. In some embodiments, the defense system used in a method disclosed herein comprises a combination of Defense Systems selected from a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, and a Defense System Xc. In some embodiments, the defense system used in a method disclosed herein comprises between 2-5 Defense Systems selected from a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System III, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, and a Defense System Xc. In some embodiments, the defense system used in a method disclosed herein comprises between 2-10 Defense Systems selected from a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, and a Defense System Xc. In some embodiments, the defense system used in a method disclosed herein comprises between 10-20 Defense Systems selected from a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, and a Defense System Xc.

In some embodiments, the defense system used in a method disclosed herein comprises a combination of Defense Systems, as described in detail herein, selected from a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, and a Defense System Xc.

In some embodiments, disclosed herein is a method of protecting bacteria from phage infection, said method comprising the step of introducing into bacteria a defense systems comprising a combination of Defense Systems, said combination comprising any combination of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to at least one phage.

In some embodiments, disclosed herein is a method of protecting bacteria from plasmid transformation, said method comprising the step of introducing into bacteria a defense systems comprising a combination of Defense Systems, said combination comprising any combination of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to a plasmid transformation.

In some embodiments, disclosed herein is a method of protecting bacteria from conjugative elements, said method comprising the step of introducing into bacteria a defense systems comprising a combination of Defense Systems, said combination comprising any combination of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to conjugative elements.

In some embodiments, disclosed herein is a method of protecting bacteria from any combination of phage infection, conjugative elements, and plasmid transformation, said method comprising the step of introducing into bacteria a defense systems comprising a combination of Defense Systems, said combination comprising any combination of a Defense System Ia, a Defense System Ib, a Defense System II, a Defense System IIIa, a Defense System IIIb, a Defense System IIIc, a Defense System IV, a Defense System V, a Defense System VI, a Defense System VII, a Defense System VIII, a Defense System IX, a Defense System Xa, a Defense System Xb, or a Defense System Xc, wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in the bacteria being resistant to any combination of phage infection, conjugative elements, and plasmid transformation.

In some embodiments, a method of protecting bacteria from phage infection produces bacteria resistant to phage infection. In some embodiments, the method of protecting bacteria from plasmid transformation produces bacteria having reduced transformation efficiency of a plasmid. In some embodiments, the method of protecting bacteria from conjugative elements produces bacteria resistant to horizontal gene transfer. In some embodiments, the method of protecting bacteria from phage infection, and/or conjugative elements, and/or plasmid transformation, produces bacteria resistant to phage infection, resistant to horizontal gene transfer, and having reduced transformation efficiency of a plasmid.

In some embodiments, a method of protecting bacteria from phage infection produces bacteria resistant to at least one phage. In some embodiments, a method of protecting bacteria from plasmid transformation produces bacteria resistant to plasmid transformation. In some embodiments, a method of protecting bacteria from phage infection and plasmid transformation produces bacteria resistant to at least one phage and resistant to entry of a plasmid.

In some embodiments, provided herein is a method of protecting bacteria from phage infection, the method comprising introducing into the bacteria a defense system having an anti-phage activity, the system comprising at least one component selected from the group consisting of the components of the defense system, thereby protecting the bacteria from phage infection. In some embodiments, a method of protecting bacteria from phage infection comprises introducing into the bacteria a defense system comprising a Defense System selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-phage activity, the system comprising at least one component of said Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from phage infection. In some embodiments, a method of protecting bacteria from phage infection comprises introducing into the bacteria a defense system comprising a combination of Defense Systems selected from Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-phage activity, the system comprising at least one component of each of said Defense Systems in combination, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from phage infection.

In some embodiments, an at least one component comprises the components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, required for a functional Defense System, wherein said function comprises an anti-phage activity. In some embodiments, an at least one component comprises the components of the cassette of genes making up a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises two components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises three components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises four components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises five components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component. In some embodiments, a component comprises a component homolog.

In some embodiments, provided herein is a method of protecting bacteria from plasmid transformation, the method comprising introducing into the bacteria a defense system having an anti-plasmid activity, the system comprising at least one component selected from the group consisting of the components of the defense system, thereby protecting the bacteria from plasmid transformation. In some embodiments, a method of protecting bacteria from plasmid transformation comprises introducing into the bacteria a defense system comprising a Defense System selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-plasmid activity, the system comprising at least one component of said Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from plasmid transformation. In some embodiments, a method of protecting bacteria from plasmid transformation comprises introducing into the bacteria a defense system comprising a combination of Defense Systems selected from Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-plasmid activity, the system comprising at least one component of each of said Defense Systems in combination, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from plasmid transformation.

In some embodiments, an at least one component comprises the components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, required for a functional Defense System, wherein said function comprises an anti-plasmid activity. In some embodiments, an at least one component comprises the components of the cassette of genes making up a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises two components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises three components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises four components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises five components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component. In some embodiments, a component comprises a component homolog.

In some embodiments, provided herein is a method of protecting bacteria from conjugative elements, the method comprising introducing into the bacteria a defense system having an anti-conjugation activity, the system comprising at least one component selected from the group consisting of the components of the defense system, thereby protecting the bacteria from conjugation. In some embodiments, a method of protecting bacteria from conjugative elements comprises introducing into the bacteria a defense system comprising a Defense System selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-conjugation activity, the system comprising at least one component of said Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from conjugation. In some embodiments, a method of protecting bacteria from conjugative elements comprises introducing into the bacteria a defense system comprising a combination of Defense Systems selected from Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-conjugation activity, the system comprising at least one component of each of said Defense Systems in combination, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from conjugation.

In some embodiments, an at least one component comprises the components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, required for a functional Defense System, wherein said function comprises an anti-conjugation activity. In some embodiments, an at least one component comprises the components of the cassette of genes making up a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises two components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises three components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises four components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises five components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component. In some embodiments, a component comprises a component homolog.

In some embodiments, provided herein is a method of protecting bacteria from any combination of phage infection, conjugative elements, and plasmid transformation, the method comprising introducing into the bacteria a defense system having an anti-phage, anti-conjugation, and/or anti-plasmid activity, the system comprising at least one component selected from the group consisting of the components of the defense system, thereby protecting the bacteria from phage infection, conjugative elements, and plasmid transformation. In some embodiments, a method of protecting bacteria from phage infection, conjugative elements, and plasmid transformation comprises introducing into the bacteria a defense system comprising a Defense System selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-phage, anti-conjugation, and/or anti-plasmid activity, the system comprising at least one component of said Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from phage infection, conjugative elements, and/or plasmid transformation. In some embodiments, a method of protecting bacteria from phage infection, conjugative elements, and plasmid transformation comprises introducing into the bacteria a defense system comprising a combination of Defense Systems selected from Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-phage, anti-conjugation, and anti-plasmid activity, the system comprising at least one component of each of said Defense Systems in combination, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby protecting the bacteria from phage infection, bacterial conjugation, and/or plasmid transformation.

In some embodiments, an at least one component comprises the components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, required for a functional Defense System, wherein said function comprises an anti-phage, anti-conjugation, and/or anti-plasmid activity. In some embodiments, an at least one component comprises the components of the cassette of genes making up a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises two components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises three components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises four components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises five components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component. In some embodiments, a component comprises a component homolog.

The components of Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc have been described in detail above, as has the combination of these Defense systems. Methods of protecting bacteria comprising introducing into the bacteria a defense system comprising at least one components of a Defense System selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, or a combination of Defense Systems thereof, comprises use of the components of the Defense Systems as described in detail above, and in Tables 6-18. The detailed description of the Defense Systems and components thereof, and combinations thereof, as described above, are incorporated in full in the method of use of protecting bacteria described herein. Briefly, a non-limiting description of Defense Systems and their components includes Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc and components thereof, including but are not limited to methods of protecting bacteria comprising introducing into the bacteria a defense system comprising at least one components of a Defense System selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, or a combination of Defense Systems thereof, wherein in some embodiments:

a Defense System Ia comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, a ZorC polypeptide comprising a pfam15611 domain, and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof;

a Defense System Ib comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ZorA polypeptide comprising a pfam01618 domain, a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, and a ZorE polypeptide comprising a pfam01844 domain or a COG3183 domain or a combination thereof;

a Defense System II comprises a nucleic acid construct comprising a nucleic acid sequence encoding a ThsA polypeptide comprising a pfam13289 domain or a pfam14519 domain or a combination thereof, and a KwaB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain, or a combination thereof;

a Defense System IIIa comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof;

a Defense System IIIa comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, said DruB polypeptide encoded by a gene positioned within 5 genes of a gene encoding DruA, DruD, and or DruE, and said DruC polypeptide encoded by a gene positioned within 5 genes of a gene encoding DruA, DruD, and or DruE;

a Defense System IIIb comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruM polypeptide comprising a pfam00145 domain or a COG0270 or a combination thereof, a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof;

a Defense System IIIb comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruM polypeptide comprising a pfam00145 domain or a COG0270 or a combination thereof, a DruF polypeptide, a DruG polypeptide, and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, said DruF polypeptide encoded by a gene positioned within 5 genes of a gene encoding DruM and or DruE, and said DruG polypeptide encoded by a gene positioned within 5 genes of a gene encoding DruM and or DruE;

a Defense System IIIc comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruH polypeptide and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof;

a Defense System IIIc comprises a nucleic acid construct comprising a nucleic acid sequence encoding a DruH polypeptide and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, said DruH polypeptide encoded by a gene positioned within 5 genes of a gene encoding DruE;

a Defense System IV comprises a nucleic acid construct comprising a nucleic acid sequence encoding a HamA polypeptide comprising a pfam08878 domain or a DUF1837 domain or a combination thereof, and a HamB polypeptide comprising COG1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof;

a Defense System V comprises a nucleic acid construct comprising a nucleic acid sequence encoding a SduA polypeptide comprising a pfam14082 domain or a pfam01939 domain or a combination thereof;

a Defense System VI comprises a nucleic acid construct comprising a nucleic acid sequence encoding a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, and a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or a combination thereof;

a Defense System VII comprises a nucleic acid construct comprising a nucleic acid sequence encoding a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, and a PtuB polypeptide comprising pfam13395 domain or a pfam 01844 domain or a combination thereof;

a Defense System VIII comprises a nucleic acid construct comprising a nucleic acid sequence encoding a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, and a LmuB polypeptide comprising a pfam02463 domain;

a Defense System IX comprises a nucleic acid construct comprising a nucleic acid sequence encoding a KwaA polypeptide and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof;

a Defense System IX comprises a nucleic acid construct comprising a nucleic acid sequence encoding a KwaA polypeptide and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof, said KwaA polypeptide encoded by a gene positioned within 5 genes of a gene encoding KwaB;

a Defense System Xa comprises a nucleic acid construct comprising a nucleic acid sequence encoding a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or any combination thereof, a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or any combination thereof, a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or a combination thereof, and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof;

a Defense System Xb comprises a nucleic acid construct comprising a nucleic acid sequence encoding a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or any combination thereof, a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or any combination thereof, a JetC^(ii) polypeptide comprising a pfam13558 domain, and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or any combination thereof;

a Defense System Xc comprises a nucleic acid construct comprising a nucleic acid sequence encoding a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide comprising a COG1196 domain, a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain, or a DUF2220 domain, or a DUF2399 domain, or a combination thereof; or

a Defense System Xc comprises a nucleic acid construct comprising a nucleic acid sequence encoding a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide comprising a COG1196 domain, a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain, or a DUF2220 domain, or a DUF2399 domain, or a combination thereof, said JetA^(iii) polypeptide and a JetB^(iii) polypeptide each encoded by a gene positioned within 5 genes of a gene encoding JetC^(iii) polypeptide or a JetD^(iii) polypeptide;

wherein each nucleic acid construct of each Defense System Ia-Xc further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof; wherein said method results in protecting bacteria comprising the bacteria being resistant to at least one phage, or the bacteria having reduced efficacy of plasmid transformation, or a combination thereof.

In some embodiments, the bacteria do not express an endogenous version of the defense system being introduced. In some embodiments, the bacteria do not express a functional endogenous version of the defense system being introduced.

In some embodiments, the bacteria do not express an endogenous version of the Defense System Ia. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System Ia. In some embodiments, the bacteria do not express an endogenous version of the Defense System Ib. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System Ib. In some embodiments, the bacteria do not express an endogenous version of the Defense System II. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System II. In some embodiments, the bacteria do not express an endogenous version of the Defense System IIIa. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System IIIa. In some embodiments, the bacteria do not express an endogenous version of the Defense System IIIb. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System IIIb. In some embodiments, the bacteria do not express an endogenous version of the Defense System IIIc. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System IIIc. In some embodiments, the bacteria do not express an endogenous version of the Defense System IV. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System IV. In some embodiments, the bacteria do not express an endogenous version of the Defense System V. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System V. In some embodiments, the bacteria do not express an endogenous version of the Defense System VI. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System VI. In some embodiments, the bacteria do not express an endogenous version of the Defense System VII. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System VII. In some embodiments, the bacteria do not express an endogenous version of the Defense System VIII. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System VIII. In some embodiments, the bacteria do not express an endogenous version of the Defense System IX. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System IX. In some embodiments, the bacteria do not express an endogenous version of the Defense System Xa. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System Xa. In some embodiments, the bacteria do not express an endogenous version of the Defense System Xb. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System Xb. In some embodiments, the bacteria do not express an endogenous version of the Defense System Xc. In some embodiments, the bacteria do not express a functional endogenous version of the Defense System Xc.

In some embodiments, the bacteria do not express an endogenous version of the combination of Defense Systems selected from combinations disclosed herein above, of any of Defense Systems Ia-Xc. In some embodiments, the bacteria do not express a functional endogenous version of the combination of Defense Systems selected from combinations disclosed herein above, of any of Defense Systems Ia-Xc.

A skilled artisan would appreciate that various modalities may be used to introduce or express a defense system comprising a Defense System Ia-Xc or a combination thereof, or the components of a Defense System Ia-Xc, in the bacteria.

In some embodiments, the method is effected by expressing in the bacteria, an isolated nucleic acid sequence(s), nucleic acid construct or construct or alternatively introducing the component polypeptides of a Defense System or a combination of Defense Systems, as described herein, to confer protection. In some embodiments, protection comprises an anti-phage activity. In some embodiments, protection comprises an anti-plasmid activity. In some embodiments, protection comprises a combination of an anti-phage activity and an anti-plasmid activity. Alternatively, or additionally, the defense system comprising a Defense System or a combination of Defense Systems, is introduced into the bacteria via transmissible genetic element in a process of bacterial conjugation.

In some embodiments, there is provided a method of protecting bacteria from phage infection, or plasmid transformation, or phage infection and plasmid transformation, the method comprising introducing into the bacteria a defense system having an anti-phage activity, or an anti-plasmid activity, or an anti-phage activity and an anti-plasmid activity, wherein said bacteria is a first bacteria and said introducing into said bacteria said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, comprises contacting said first bacteria with a second bacteria expressing said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc on a transmissible genetic element.

In some embodiments, a transmissible genetic element comprises a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described herein in detail above. In some embodiments, the transmissible genetic element comprises a conjugative genetic element or a mobilized genetic element. In some embodiments, a transmissible genetic element comprises a plasmid or a transposon.

A skilled artisan would appreciate that the phrase “bacterial conjugation” encompasses a direct transfer of genetic material between bacterial cells by cell-to-cell contact or by bridge-like connection between the cells. During conjugation the donor bacterium provides a transmissible genetic element, typically a plasmid or a transposon. The transfer of the transmissible genetic element takes advantage of the complementary nature of double stranded DNA. Thus, one strand of the transmissible genetic element is transferred, and the other remains in the original bacteria. Both strands have the complementary stranded added so that each bacterium ends up with a complete transmissible element.

According to some embodiments, contacting a first bacteria with second bacteria comprise the step of incubating the bacterial cell (e.g., first bacteria) with a substance or cell (e.g., second bacteria) such that the substance or a substance contained in the cell affects the bacterial cell resistance to phage infection, or to plasmid transformation, or to phage infection and plasmid transformation.

In some embodiments, the first bacteria and the second bacteria are non-identical.

In some embodiments, the first bacteria do not express an endogenous defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, the first bacteria do not express an endogenous functional defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, the first bacteria is a commercially valuable bacteria such as those used for fermentation as described above. Thus, following the above teachings, in some embodiments, there is provided isolated bacteria comprising a nucleic acid sequence encoding a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, said system having an anti-phage activity and a transmissible genetic element expressing the defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, wherein the isolated bacteria does not express an endogenous functional defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, the first bacteria is a commercially valuable bacteria such as those used for fermentation as described above. Thus, following the above teachings, in some embodiments, there is provided isolated bacteria comprising a nucleic acid sequence encoding a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, said system having an anti-plasmid activity and a transmissible genetic element expressing the defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, wherein the isolated bacteria does not express an endogenous functional defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, the first bacteria is a commercially valuable bacteria such as those used for fermentation as described above. Thus, following the above teachings, in some embodiments, there is provided isolated bacteria comprising a nucleic acid sequence encoding a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, said system having an anti-phage activity and anti-plasmid activity, and a transmissible genetic element expressing the defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, wherein the isolated bacteria does not express an endogenous functional defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, a cell comprises a host cell. In some embodiments, a host cell comprises bacteria. In some embodiments, a cell comprises bacteria. In some embodiments, a host cell comprises a microbial cell. In some embodiments, a cell comprises a microbial cell. In some embodiments, the cell is an isolated cell. In some embodiments, bacteria are isolated bacteria. In some embodiments, a cell comprises isolated microbial cells. In some embodiments, the cell is a microbial cell such as bacteria, e.g., Gram-positive or Gram-negative bacteria. In some embodiments, the bacteria comprise Gram-negative bacteria or Negativicutes that stain negative in Gram stain. In some embodiments, a host cell comprises gram-positive bacteria, gram-negative bacteria, or archaea.

In some embodiments, Gram-negative bacteria comprise Acinetobacter calcoaceticus, Actinobacillus actinomycetemcomitans, Aeromonas hydrophila, Alcaligenes xylosoxidans, Bacteroides, Bacteroides fragilis, Bartonella bacilliformis, Bordetella spp., Borrelia burgdorferi, Branhamella catarrhalis, Brucella spp., Campylobacter spp., Chalmydia pneumoniae, Chlamydia psittaci, Chlamydia trachomatis, Chromobacterium violaceum, Citrobacter spp., Eikenella corrodens, Enterobacter aerogenes, Escherichia coli, Flavobacterium meningosepticum, Fusobacterium spp., Haemophilus influenzae, Haemophilus spp., Helicobacter pylori, Klebsiella spp., Legionella spp., Leptospira spp., Moraxella catarrhalis, Morganella morganii, Mycoplasma pneumoniae, Neisseria gonorrhoeae, Neisseria meningitidis, Pasteurella multocida, Plesiomonas shigelloides, Prevotella spp., Proteus spp., Providencia rettgeri, Pseudomonas aeruginosa, Pseudomonas spp., Rickettsia prowazekii, Rickettsia rickettsii, Rochalimaea spp., Salmonella spp., Salmonella typhi, Serratia marcescens, Shigella spp., Treponema carateum, Treponema pallidum, Treponema pallidum endemicum, Treponema pertenue, Veillonella spp., Vibrio cholerae, Vibrio vulnificus, Yersinia enterocolitica, Yersinia pestis.

In some embodiments, the bacteria comprise gammaproteobacteria (e.g. Escherichia coli, pseudomonas, vibrio and klebsiella) or Firmicutes (belonging to class Negativicutes that stain negative in Gram stain).

In some embodiments, Gram-positive bacteria comprise Actinomyces spp., Bacillus anthracis, Bifidobacterium spp., Clostridium botulinum, Clostridium perfringens, Clostridium spp., Clostridium tetani, Corynebacterium diphtheriae, Corynebacterium jeikeium, Enterococcus faecalis, Enterococcus faecium, Erysipelothrix rhusiopathiae, Eubacterium spp., Gardnerella vaginalis, Gemella morbillorum, Leuconostoc spp., Mycobacterium abcessus, Mycobacterium avium complex, Mycobacterium chelonae, Mycobacterium fortuitum, Mycobacterium haemophilium, Mycobacterium kansasii, Mycobacterium leprae, Mycobacterium marinum, Mycobacterium scrofulaceum, Mycobacterium smegmatis, Mycobacterium terrae, Mycobacterium tuberculosis, Mycobacterium ulcerans, Nocardia spp., Peptococcus niger, Peptostreptococcus spp., Proprionibacterium spp., Staphylococcus aureus, Staphylococcus auricularis, Staphylococcus capitis, Staphylococcus cohnii, Staphylococcus epidermidis, Staphylococcus haemolyticus, Staphylococcus hominis, Staphylococcus lugdanensis, Staphylococcus saccharolyticus, Staphylococcus saprophyticus, Staphylococcus schleiferi, Staphylococcus similans, Staphylococcus warneri, Staphylococcus xylosus, Streptococcus agalactiae (group B streptococcus), Streptococcus anginosus, Streptococcus bovis, Streptococcus canis, Streptococcus equi, Streptococcus milleri, Streptococcus mitior, Streptococcus mutans, Streptococcus pneumoniae, Streptococcus pyogenes (group A streptococcus), Streptococcus salivarius, Streptococcus sanguis.

In some embodiments the bacteria is a species selected from the group consisting of Escherichia, Shigella, Salmonella, Erwinia, Yersinia, Bacillus, Vibrio, Legionella, Pseudomonas, Neisseria, Bordetella, Helicobacter, Listeria, Agrobacterium, Staphylococcus, Streptococcus, Enterococcus, Clostridium, Corynebacterium, Mycobacterium, Treponema, Borrelia, Francisella, Brucella, Campylobacter, Klebsiella, Frankia, Bartonella, Rickettsia, Shewanella, Serratia, Enterobacter, Proteus, Providencia, Brochothrix, and Brevibacterium.

In some embodiments, there is provided herein a cell (e.g., bacteria) expressing at least one component of a defense system. In some embodiments, the cell is genetically modified. In some embodiments, the cell comprises an isolated cell. The components of defense systems comprising a Defense System Ia-Xc and combinations thereof, have been described in detail above. In some embodiments, polypeptide components of these systems include but are not limited to ZorA, ZorB, ZorC, ZorD, ZorE (Defense System Ia and Ib); ThsA and ThsB (Defense System II); DruA, DruB, DruC, DruD, DruE, DruH, DruM, DruG, DruF (Defense Systems IIIa, IIIb, IIIc); HamA and HamB (Defense System IV); SduA (Defense System V); GajA and GajB (Defense System VI); PtuA and PtuB (Defense System VII); LmuA and LmuB (Defense System VIII); KwaA and KwaB (Defense System IX); and JetA, JetB, JetC, and JetD, and variants thereof (Defense Systems Xa, Xb, Xc). In some embodiments, polynucleotide (e.g., gene) components, include but are not limited to zorA, zorB, zorC, zorD, zorE (Defense Systems Ia, Ib); thsA and thsB (Defense System II); druA, druB, druC, druD, druE, druF, druG, druH, druM (Defense Systems IIIa, IIIb, IIIc); hamA and hamB (Defense System IV); sduA (Defense System V); gajA and gajB (Defense System VI); ptuA and ptuB (Defense System VII); lmuA and lmuB (Defense System VIII); kwaA and kwaB (Defense System IX); and jetA, jetB, jetC, and jetD and variants thereof (Defense Systems Xa, Xb, Xc).

In some embodiments, a cell is genetically modified to express at least 2, at least 3, or at least 4 of the components of an anti-nucleic acid defense system comprising a Defense System of Ia-Xc, or a combination thereof. In some embodiments, the cell is genetically modified to express a functional anti-nucleic acid defense system. In some embodiments, the cell is genetically modified to express the components necessary for a functional anti-nucleic acid defense system. In some embodiments, the cell is genetically modified to expression any combination of components of a Defense System Ia, any combination of components of a Defense System Ib, any combination of components of a Defense System II, any combination of components of a Defense System IIIa, any combination of components of a Defense System IIIb, any combination of components of a Defense System IIIc, any combination of components of a Defense System IV, any combination of components of a Defense System V, any combination of components of a Defense System VI, any combination of components of a Defense System VII, any combination of components of a Defense System VIII, any combination of components of a Defense System IX, any combination of components of a Defense System Xa, any combination of components of a Defense System Xb, or any combination of components of a Defense System Xc. In some embodiments, a cell is genetically modified to express all of the components of a Defense System.

In some embodiments, a cell is genetically modified to express at least 2, 3, 4, or 5 components of a Defense System or combination of Defense systems, as described herein. In some embodiments, a cell is genetically modified to express at least 2, 3, 4, or 5 functional components of a Defense System or combination of Defense systems, as described herein, wherein the cell comprises the anti-phage, or anti-plasmid, or anti-phage and anti-plasmid resistance provide by each of the functional Defense Systems.

In some embodiments, a cell that has been genetically modified to express a defense system comprising a Defense System of Ia-Xc or a combination thereof, has an anti-phage activity. In some embodiments, a cell that has been genetically modified to express a defense system comprising a Defense System of Ia-Xc or a combination thereof, has an anti-plasmid activity. In some embodiments, a cell that has been genetically modified to express a defense system comprising a Defense System of Ia-Xc or a combination thereof, has an anti-phage activity and an anti-plasmid activity.

In some embodiments, a cell (e.g., bacterial cell) does not express an endogenous defense system comprising any one of Defense Systems Ia-Xc, or any combination thereof. In some embodiments, the cell expressing a defense system described herein (e.g., bacterial cell expressing a Defense System of Ia-Xc, or any combination thereof) does not endogenously express the defense system comprising any one of a the Defense Systems of Ia-Xc, or any combination thereof.

In some embodiments, the cell expressing a defense system (e.g., bacterial cell) is resistant to infection by at least one phage. In some embodiments the cell is resistant to at least one lytic phage. In some embodiments, the cell is resistant to at least one temperate (also referred as lysogenic) phage. In some embodiments, the cell is resistant to phage lysogeny. In some embodiments, the cell is resistant to phage DNA replication. In some embodiments, the cell is resistant to plasmid transformation. In some embodiments, the cell is resistant to infection by at least one phage and is resistant to plasmid transformation.

Phage contamination is now considered to be a main cause of slow fermentation or complete starter failure. The lack of bacteria which survive adequately can result in milk products which do not have a desirable taste. Thus, a goal of scientists working to produce better milk products lies in providing bacteria which have all the characteristics associated with production of a good flavor and which are able to resist infection by phages.

In some embodiments, the bacteria may be useful in the manufacture of dairy and fermentation processing such as, but not limited to, milk-derived products, such as cheeses, yogurt, fermented milk products, sour milks, and buttermilk. In some embodiments, the bacteria are useful as a part of the starter culture in the manufacture of dairy and fermentation processing. In some embodiments, the starter culture is a food grade starter culture.

A bacterium traditionally used in the production of milk products is S. thermophilus. It is particularly employed in the production of yogurt, mozzarella and Swiss type cheeses. One problem with S. thermophilus is that it is extremely sensitive to phage infection.

In some embodiments, the bacteria are lactic acid bacteria. A skilled artisan would appreciate that the term “lactic acid bacteria” encompasses Gram positive, microaerophillic or anaerobic bacteria which ferment sugar with the production of acids including lactic acid as the predominantly produced acid, acetic acid, formic acid and propionic acid.

In some embodiments, bacteria used in methods disclosed herein, are selected from a species selected from the group of the industrially most useful lactic acid bacteria comprising Lactococcus species, Streptococcus species, Lactobacillus species, Leuconostoc species, Oenococcus species, Pediococcus species, Bifidobacterium species, and Propionibacterium species. In some embodiments, bacteria protected in a method of protecting bacteria from phage infection comprises bacteria selected from a Lactococcus species, a Streptococcus species, a Lactobacillus species, a Leuconostoc species, a Oenococcus species, a Pediococcus species, a Bifidobacterium, and a Propionibacterium species. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Lactococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Streptococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Lactobacillus species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Leuconostoc species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Oenococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Pediococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Bifidobacterium of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Propionibacterium species of bacteria.

In some embodiments, bacteria protected in a method of protecting bacteria from plasmid transformation comprises bacteria selected from a Lactococcus species, a Streptococcus species, a Lactobacillus species, a Leuconostoc species, a Oenococcus species, a Pediococcus species, a Bifidobacterium species, and a Propionibacterium species. In some embodiments, bacteria protected in a method of protecting bacteria from plasmid transformation comprises bacteria selected from a Lactococcus species, a Streptococcus species, a Lactobacillus species, a Leuconostoc species, a Oenococcus species, a Pediococcus species, a Bifidobacterium, and a Propionibacterium species. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Lactococcus species of bacteria. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Streptococcus species of bacteria. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Lactobacillus species of bacteria. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Leuconostoc species of bacteria. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Oenococcus species of bacteria. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Pediococcus species of bacteria. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Bifidobacterium of bacteria. In some embodiments a method of protecting bacteria from plasmid transformation comprises protecting a Propionibacterium species of bacteria.

In some embodiments, bacteria protected in a method of protecting bacteria from phage infection and plasmid transformation comprises bacteria selected from a Lactococcus species, a Streptococcus species, a Lactobacillus species, a Leuconostoc species, a Oenococcus species, a Pediococcus species, a Bifidobacterium species, and a Propionibacterium species. In some embodiments, bacteria protected in a method of protecting bacteria from phage infection and plasmid transformation comprises bacteria selected from a Lactococcus species, a Streptococcus species, a Lactobacillus species, a Leuconostoc species, a Oenococcus species, a Pediococcus species, a Bifidobacterium, and a Propionibacterium species. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Lactococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Streptococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Lactobacillus species of bacteria. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Leuconostoc species of bacteria. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Oenococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Pediococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Bifidobacterium of bacteria. In some embodiments a method of protecting bacteria from phage infection and plasmid transformation comprises protecting a Propionibacterium species of bacteria.

In some embodiments, a host cell comprises a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, a cell comprises a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, bacteria comprise a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, a cell comprises a transmissible genetic element comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, bacteria comprise a transmissible genetic element comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, an expression vector comprises a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, a cell comprises an expression vector comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, bacteria comprise an expression vector comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, an expression vector comprises multiple vectors each comprising a construct comprising a Defense System selected from Ia-Xc. In some embodiments, an expression vector comprises multiple vectors each encoding a polypeptide component or functional portion of a polypeptide component of a Defense System Ia-Xc construct.

In some embodiments, a cell comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to at least one phage. In some embodiments, a cell comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to plasmid transformation. In some embodiments, a cell comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to at least one phage and is resistant to plasmid transformation.

In some embodiments, a cell comprising a transmissible element comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to at least one phage. In some embodiments, a cell comprising a transmissible element comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to plasmid transformation. In some embodiments, a cell comprising a transmissible element comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to at least one phage and is resistant to plasmid transformation.

In some embodiments, a cell comprising an expression vector comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to at least one phage. In some embodiments, a cell comprising an expression vector comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to plasmid transformation. In some embodiments, a cell comprising an expression vector comprising a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as disclosed herein, is resistant to at least one phage and is resistant to plasmid transformation.

Cultures, and starter cultures, in particular are used extensively in the food industry in the manufacture of fermented products including milk products (e.g., yogurt, buttermilk, and cheese), meat products, bakery products, wine, and vegetable products. The preparation of cultures is labor intensive, occupying much space and equipment, and there is a considerable risk of contamination with spoilage bacteria and/or phages during the propagation steps. The failure of bacterial cultures due to phage infection and multiplication is a major problem with the industrial use of bacterial cultures. There are many different types of phages and new strains continue to emerge. Indeed, despite advances in culture development, there is a continuing need to improve cultures for use in industry.

In some embodiments, there is provided a method of preparing a food, the method comprising adding to the food at least one defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the food. In some embodiments, a food comprises an alcoholic beverage.

In some embodiments, an alcoholic beverage comprises a wine or a sake. In some embodiments, provided herein is a method of preparing an alcoholic beverage, the method comprising adding to the alcoholic beverage at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the alcoholic beverage. In some embodiments, provided herein is a method of preparing a wine, the method comprising adding to the wine at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the wine. In some embodiments, provided herein is a method of preparing a sake, the method comprising adding to the sake at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the sake.

In some embodiments, a food comprises a dairy product. In some embodiments, a dairy product comprises a milk product, a sour milk, a buttermilk, a milk, a cheese, a yogurt, viili, yakult, or casein. In some embodiments, a food comprises natto.

In some embodiments, provided herein is a method of preparing a dairy product, the method comprising adding to the dairy product at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the dairy product. In some embodiments, provided herein is a method of preparing a milk product, the method comprising adding to the milk product at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the milk product. In some embodiments, provided herein is a method of preparing milk, the method comprising adding to the milk at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the milk. In some embodiments, provided herein is a method of preparing a sour milk, the method comprising adding to the sour milk at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the sour milk. In some embodiments, provided herein is a method of preparing a butter milk, the method comprising adding to the butter milk at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the butter milk. In some embodiments, provided herein is a method of preparing a cheese, the method comprising adding to the cheese at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the cheese. In some embodiments, provided herein is a method of preparing a yogurt the method comprising adding to the yogurt at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the yogurt. In some embodiments, provided herein is a method of preparing a viili the method comprising adding to the viili at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the viili. In some embodiments, provided herein is a method of preparing a yakult the method comprising adding to the yakult at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the yakult. In some embodiments, provided herein is a method of preparing a casein, the method comprising adding to the casein at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the casein.

In some embodiments, provided herein is a method of preparing a natto, the method comprising adding to the natto at least on defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the natto.

In some embodiments, there is provided a method of preparing a food additive, the method comprising adding to the food additive, at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the food additive.

In some embodiments, there is provided a method of preparing a feed, the method comprising adding to the feed at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the feed.

In some embodiments, there is provided a method of preparing a nutritional supplement, the method comprising adding to the nutritional supplement at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the nutritional supplement.

In some embodiments, there is provided a method of preparing a probiotic supplement, the method comprising adding to the probiotic supplement, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the probiotic supplement.

In some embodiments, there is provided a method of preparing a health care product, the method comprising adding to the health care product at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the health care product. In some embodiments, a health care product comprises an antibiotic.

In some embodiments, there is provided a method of preparing an antibiotic, the method comprising adding to the antibiotic, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the antibiotic. In some embodiments, an antibiotic comprises a polymyxin, a colistin, or a bacitracin.

In some embodiments, there is provided a method of preparing a polymyxin, the method comprising adding to the polymyxin, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the polymyxin. In some embodiments, there is provided a method of preparing colistin, the method comprising adding to the colistin, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the colistin. In some embodiments, there is provided a method of preparing a bacitracin, the method comprising adding to the bacitracin, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the bacitracin.

In some embodiments, there is provided a method of preparing a personal care product, the method comprising adding to the personal care product at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing the personal care product.

In some embodiments, there is provided a method of preparing a veterinary product, the method comprising adding to the veterinary product at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing veterinary product.

In some embodiments, there is provided a method of preparing a L-glutamine, the method comprising adding to the L-glutamine at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing L-glutamine.

In some embodiments, there is provided a method of preparing acetone, the method comprising adding to the acetone at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing acetone.

In some embodiments, there is provided a method of preparing butanol, the method comprising adding to the butanol at least one defense system components, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, thereby preparing butanol.

Thus, following the above teachings, in some embodiments, there is provided a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in details herein. In some embodiments, a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a starter culture comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a started culture comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a starter culture comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a food comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a food comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a food comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, a food comprises a dairy product. In some embodiments, a food comprises an alcoholic beverage. In some embodiments, a food comprises a natto.

In some embodiments, there is provided a dairy product comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a dairy product comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a dairy product comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a milk comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a milk comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a milk comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a milk product comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a milk product comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a milk product comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a sour milk comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a sour milk comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a sour milk comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a butter milk comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a butter milk comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a butter milk comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a cheese comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a cheese comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a cheese comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a yogurt comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a yogurt comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a yogurt comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a viili comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a viili comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a viili comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a yakult comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a yakult comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a yakult comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a casein comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a casein comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a casein comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided an alcoholic beverage comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, an alcoholic beverage comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided an alcoholic beverage comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, an alcoholic beverage comprises a wine or a sake. In some embodiments, there is provided a wine comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a wine comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a wine comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a sake comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a sake comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a sake comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a natto comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a natto comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a natto comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a food additive comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a food additive comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a food additive comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided feed comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, feed comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided feed comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a nutritional supplement comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a nutritional supplement comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a nutritional supplement comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a probiotic supplement comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a probiotic supplement comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a probiotic supplement comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a health care product comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a health care product comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a health care product comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, a health care product comprises an antibiotic. In some embodiments, there is provided an antibiotic comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, an antibiotic comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided an antibiotic comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, an antibiotic comprises a polymyxin, a colistin, or a bacitracin. In some embodiments, there is provided a polymyxin comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a polymyxin comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a polymyxin comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a colistin comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a colistin comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a colistin comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a bacitracin comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a bacitracin comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a bacitracin comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a personal care product comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a personal care product comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a personal care product comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a veterinary product comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a veterinary product comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a veterinary product comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided a L-glutamine comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a L-glutamine comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a L-glutamine comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided an acetone comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, an acetone comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided an acetone comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, there is provided butanol comprising at least one components of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, a butanol comprises at least one functional component of a defense system, said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein. In some embodiments, there is provided a butanol comprising a functional defense system, said defense system comprising a functional Defense System selected from Defense Systems Ia-Xc or a combination of functional Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein.

In some embodiments, the nucleic acid construct of the Defense Systems Ia-Xb comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof.

In some embodiments, a method of preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product, comprises adding to the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product at least one component selected from the group consisting of the components of the defense system, thereby preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product. In some embodiments, a method of preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprises introducing into the bacteria a defense system comprising a Defense System selected from a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-phage activity, or an anti-plasmid activity, or an anti-phage and an anti-plasmid activity, the system comprising at least one component of said Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby preparing the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product.

In some embodiments, a method of preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprises introducing into the bacteria a defense system comprising a combination of Defense Systems selected from Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc, wherein said defense system comprises an anti-phage activity, an anti-plasmid activity, or an anti-phage and an anti-plasmid activity, the system comprising at least one component of each of said Defense Systems in a combination, said at least one component selected from the group consisting of the components of the Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, respectively, thereby preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product.

In some embodiments, an at least one component comprises the components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, required for a functional Defense System, wherein said function comprises an anti-phage activity, an anti-plasmid activity, or an anti-phage and an anti-plasmid activity. In some embodiments, an at least one component comprises the components of the cassette of genes making up a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises two components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises three components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises four components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises five components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component. In some embodiments, a component comprises a component homolog. Defense System components, nucleic acid sequences thereof, and amino acid sequences thereof are presented herein in Table 18.

In some embodiments, for a method of use disclosed herein, the at least one defense system component is comprised in cell (e.g. bacteria) genetically modified to express the component.

In some embodiments, there is provided a method of preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product, the method comprising adding to the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product a cell comprising a defense system disclosed herein, thereby preparing the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product. In some embodiments, said use comprises use of an isolated cell comprising a defense system disclosed herein.

In some embodiments, there is provided a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprising the cell comprising a defense system disclosed herein.

In some embodiments, there is provided a method of preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprising adding to the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product bacteria which expresses on a transmissible genetic element at least one component of a defense system disclosed herein, wherein said defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc, as described in detail herein, thereby preparing the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product.

In some embodiments, an at least one component comprises the components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, required for a functional Defense System, wherein said function comprises an anti-phage activity, an anti-plasmid activity, or an anti-phage and an anti-plasmid activity. In some embodiments, an at least one component comprises the components of the cassette of genes making up a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises two components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises three components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises four components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises five components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component. In some embodiments, a component comprises a component homolog. Defense System components, nucleic acid sequences thereof, and amino acid sequences thereof are presented herein in Table 18.

In some embodiments, there is provided a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprising bacteria which expresses on a transmissible genetic element at least one component of a defense system comprising a Defense System selected from Defense Systems Ia-Xc or a combination of Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, an at least one component comprises the components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc, required for a functional Defense System, wherein said function comprises an anti-phage activity, an anti-plasmid activity, or an anti-phage and an anti-plasmid activity. In some embodiments, an at least one component comprises the components of the cassette of genes making up a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises two components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises three components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises four components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, an at least one component comprises five components of a Defense System Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, or Xc. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component. In some embodiments, a component comprises a component homolog. Defense System components, nucleic acid sequences thereof, and amino acid sequences thereof are presented herein in Table 18.

In some embodiments, a food or feed disclosed herein, comprises a dairy product. In some embodiments, a food additive comprises an additive to be added to a dairy product or to an ingredient used to prepare a dairy product.

The preparation of starter cultures of such bacteria, and methods of fermenting substrates, particularly food substrates such as milk, can be carried out in accordance with known techniques, including but not limited to those described in Mayra-Makinen and Bigret (1993) Lactic Acid Bacteria; Salminen and vonWright eds. Marcel Dekker, Inc. New York. 65-96; Sandine (1996) Dairy Starter Cultures Cogan and Accolas eds. VCH Publishers, New York. 191-206; Gilliland (1985) Bacterial Starter Cultures for Food. CRC Press, Boca Raton, Fla.

The term “fermenting” refers to the energy-yielding, metabolic breakdown of organic compounds by microorganisms that generally proceeds under anaerobic conditions and with the evolution of gas.

Products produced by fermentation which have been known to experience phage infection, and the corresponding infected fermentation bacteria, include cheddar and cottage cheese (Lactococcus lactis subsp. lactis, Lactococcus lactis subsp. cremoris), yogurt (Lactobacillus delbrueckii subsp. bulgaricus, Streptococcus thermophilus), Swiss cheese (S. thermophilus, Lactobacillus lactis, Lactobacillus helveticus), blue cheese (Leuconostoc cremoris), Italian cheese (L. bulgaricus, S. thermophilus), viili (Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis biovar diacetylactis, Leuconostoc cremoris), yakult (Lactobacillus casei), casein (Lactococcus lactis subsp. cremoris), natto (Bacillus subtilis var. natto), wine (Leuconostoc oenos), sake (Leuconostoc mesenteroides), polymyxin (Bacillus polymyxa), colistin (Bacillus colistrium), bacitracin (Bacillus licheniformis), L-glutamic acid (Brevibacterium lactofermentum, Microbacterium ammoniaphilum), and acetone and butanol (Clostridium acetobutylicum, Clostridium saccharoperbutylacetonicum).

In some embodiments, provided herein are bacteria resistant to phage infection, said bacteria including but not limited to Lactococcus lactis subsp. lactis, Lactococcus lactis subsp. cremoris Lactobacillus delbrueckii subsp. bulgaricus, Streptococcus thermophilus, S. thermophilus, Lactobacillus lactis, Lactobacillus helveticus, Leuconostoc cremoris, L. bulgaricus, S. thermophilus, Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis biovar diacetylactis, Leuconostoc cremoris, Lactobacillus casei, Lactococcus lactis subsp. cremoris, Bacillus subtilis var. natto, Leuconostoc oenos, Leuconostoc mesenteroides, polymyxin Bacillus polymyxa, Bacillus colistrium, Bacillus licheniformis, L-Brevibacterium lactofermentum, Microbacterium ammoniaphilum, and acetone and butanol Clostridium acetobutylicum, Clostridium saccharoperbutylacetonicum.

In some embodiments, provided here are starter cultures comprising bacteria resistant to phage infection, said bacteria including but not limited to Lactococcus lactis subsp. lactis, Lactococcus lactis subsp. cremoris Lactobacillus delbrueckii subsp. bulgaricus, Streptococcus thermophilus, S. thermophilus, Lactobacillus lactis, Lactobacillus helveticus, Leuconostoc cremoris, L. bulgaricus, S. thermophilus, Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis biovar diacetylactis, Leuconostoc cremoris, Lactobacillus casei, Lactococcus lactis subsp. cremoris, Bacillus subtilis var. natto, Leuconostoc oenos, Leuconostoc mesenteroides, polymyxin Bacillus polymyxa, Bacillus colistrium, Bacillus licheniformis, L-Brevibacterium lactofermentum, Microbacterium ammoniaphilum, and acetone and butanol Clostridium acetobutylicum, Clostridium saccharoperbutylacetonicum.

In some embodiments, a method of protecting a bacteria from phage infection, comprises protecting bacteria selected from Lactococcus lactis subsp. lactis, Lactococcus lactis subsp. cremoris Lactobacillus delbrueckii subsp. bulgaricus, Streptococcus thermophilus, S. thermophilus, Lactobacillus lactis, Lactobacillus helveticus, Leuconostoc cremoris, L. bulgaricus, S. thermophilus, Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis biovar diacetylactis, Leuconostoc cremoris, Lactobacillus casei, Lactococcus lactis subsp. cremoris, Bacillus subtilis var. natto, Leuconostoc oenos, Leuconostoc mesenteroides, polymyxin Bacillus polymyxa, Bacillus colistrium, Bacillus licheniformis, L-Brevibacterium lactofermentum, Microbacterium ammoniaphilum, and acetone and butanol Clostridium acetobutylicum, and Clostridium saccharoperbutylacetonicum.

In some embodiments, a method of protecting a bacteria from plasmid transformation, comprises protecting bacteria selected from Lactococcus lactis subsp. lactis, Lactococcus lactis subsp. cremoris Lactobacillus delbrueckii subsp. bulgaricus, Streptococcus thermophilus, S. thermophilus, Lactobacillus lactis, Lactobacillus helveticus, Leuconostoc cremoris, L. bulgaricus, S. thermophilus, Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis biovar diacetylactis, Leuconostoc cremoris, Lactobacillus casei, Lactococcus lactis subsp. cremoris, Bacillus subtilis var. natto, Leuconostoc oenos, Leuconostoc mesenteroides, polymyxin Bacillus polymyxa, Bacillus colistrium, Bacillus licheniformis, L-Brevibacterium lactofermentum, Microbacterium ammoniaphilum, and acetone and butanol Clostridium acetobutylicum, and Clostridium saccharoperbutylacetonicum.

In some embodiments, a method of protecting a bacteria from phage infection and plasmid transformation, comprises protecting bacteria selected from Lactococcus lactis subsp. lactis, Lactococcus lactis subsp. cremoris Lactobacillus delbrueckii subsp. bulgaricus, Streptococcus thermophilus, S. thermophilus, Lactobacillus lactis, Lactobacillus helveticus, Leuconostoc cremoris, L. bulgaricus, S. thermophilus, Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis biovar diacetylactis, Leuconostoc cremoris, Lactobacillus casei, Lactococcus lactis subsp. cremoris, Bacillus subtilis var. natto, Leuconostoc oenos, Leuconostoc mesenteroides, polymyxin Bacillus polymyxa, Bacillus colistrium, Bacillus licheniformis, L-Brevibacterium lactofermentum, Microbacterium ammoniaphilum, and acetone and butanol Clostridium acetobutylicum, and Clostridium saccharoperbutylacetonicum.

In some embodiments, a cell comprising a defense system described herein, comprises a Lactococcus lactis subsp. Lactis cell, a Lactococcus lactis subsp. cremoris cell, a Lactobacillus delbrueckii subsp. bulgaricus cell, a Streptococcus thermophilus cell, a S. thermophilus cell, a Lactobacillus lactis cell, a Lactobacillus helveticus cell, a Leuconostoc cremoris cell, a L. bulgaricus cell, a S. thermophilus cell, a Lactococcus lactis subsp. cremoris cell, a Lactococcus lactis subsp. lactis biovar diacetylactis cell, a Leuconostoc cremoris cell, a Lactobacillus case cell, a, Lactococcus lactis subsp. cremoris cell, a Bacillus subtilis var. natto cell, a Leuconostoc oenos cell, a Leuconostoc mesenteroides cell, a polymyxin Bacillus polymyxa cell, a Bacillus colistrium cell, a Bacillus licheniformis cell, a L-Brevibacterium lactofermentum cell, a Microbacterium ammoniaphilum cell, a Clostridium acetobutylicum cell, and a Clostridium saccharoperbutylacetonicum cell

As exemplified herein below in Examples 1-8, transformation of bacteria with a defense system confers either phage resistance or plasmid resistance to the bacteria. For example, but not limited to the results presented in FIGS. 3B, 3C, 3D, 3E, 5D, and 7C. These results suggest that the use of anti-defense system as a method to induce phage sensitivity.

In some embodiments, addition of nucleic acid sequences to the genome of a bacteria provides phage resistance. In some embodiments, addition of a nucleic acid construct, as disclosed herein, to the genome of a bacteria provides phage resistance. In some embodiments, addition of a nucleic acid construct, as disclosed herein, to the genome of a bacteria comprising Lactococcus lactis subsp. lactis, Lactococcus lactis subsp. cremoris Lactobacillus delbrueckii subsp. bulgaricus, Streptococcus thermophilus, S. thermophilus, Lactobacillus lactis, Lactobacillus helveticus, Leuconostoc cremoris, L. bulgaricus, S. thermophilus, Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis biovar diacetylactis, Leuconostoc cremoris, Lactobacillus casei, Lactococcus lactis subsp. cremoris, Bacillus subtilis var. natto, Leuconostoc oenos, Leuconostoc mesenteroides, polymyxin Bacillus polymyxa, Bacillus colistrium, Bacillus licheniformis, L-Brevibacterium lactofermentum, Microbacterium ammoniaphilum, and acetone and butanol Clostridium acetobutylicum, Clostridium saccharoperbutylacetonicum, provides phage resistance to the bacteria.

As used herein, “inducing phage sensitivity” refers to an increase of at least 5% in bacterial susceptibility towards a phage, as compared to same in the absence of the defense system agent, as may be manifested e.g. in growth arrest, death or prevention of lysogeny. According to a specific embodiment, the increase is in at least 10%, 20%, 30%, 40% or even higher say, 50%, 60%, 70%, 80%, 90% or more than 100%.

Methods of Identifying Defense Systems

Disclosed herein, in some embodiments is a computational approach to identify new defense systems localized in the vicinity of annotated defense systems.

In some embodiments, there is provided a method for identifying a defense system in a prokaryotic cell, comprising the steps of:

-   -   (a) selecting, in-silico, a gene located in close proximity to a         known defense-related gene family present in a plurality of         prokaryotic genomes;     -   (b) analyzing, in-silico, the DNA upstream and downstream of         said gene; and     -   (c) identifying, in-silico, a cassette of genes within the         upstream and downstream DNA analyzed in step (b) comprising said         gene of step (a), wherein said cassette of genes has conserved         synteny in said plurality of prokaryotic genomes.

In some embodiments, a method for identifying a defense system comprises the steps of:

-   -   (a) in-silico selecting a gene in location proximity to an         annotated defense system of a plurality of prokaryotic genomes;         and     -   (b) in-silico selecting a cassette of genes comprising said gene         with conserved synteny in said plurality of prokaryotic genomes.

In some embodiments, the defense system comprises an anti-phage defense system. In some embodiments, the defense system comprises an anti-plasmid defense system. In some embodiments, the defense system comprises an anti-phage defense system and an anti-plasmid defense system.

In some embodiments, a gene in location proximity comprises a gene positioned within less than 10 genes upstream (5′) or 10 genes downstream (3′) to the annotated defense system. In some embodiments, the location proximity is positioned within 10 genes upstream or downstream to said annotated defense system in said prokaryotic genome.

Annotated defense systems are disclosed in scientific papers and databases known to the skilled in the art (see e.g. Makarova et al. J Bacteriol. 2011 November; 193(21): 6039-6056; Swarts et al. Nature (2014) 507, 258-261; and Goldfarb et al. EMBO J. (2015) 34, 169-83]. Non-limiting examples of annotated defense systems that can be used with some embodiments of the methods for identifying defense systems include, but are not limited to surface modifications to prevent adsorption of phages, restriction-modification (RIM) systems, infection (Abi) mechanisms, the CRISPR/Cas adaptive defense system, the prokaryotic argonaute and the BREX system.

In some embodiments, the annotated defense system is selected from the group consisting of a restriction-modification (R/M) system, an infection (Abi) system, a CRISPR/Cas adaptive defense system, a prokaryotic argonaute and a BREX system.

In some embodiments, the plurality comprises at least 2. In some embodiments, the plurality comprises at least 5, at least 10, at least 20, at least 50, at least 100 or at least 500.

A skilled artisan would appreciate that the term “conserved synteny” encompasses a conserved gene order in the genomes of different species.

In some embodiments, the method for identifying a defense system further comprises a step of validating a defensive effect of the selected (identified) cassette of genes.

Validating a defensive effect may be effected in any method known in the art.

In some embodiments, validating the defensive effect is effected by genetically modifying a prokaryotic cell to express the selected cassette of genes and subjecting the prokaryotic cell to phage infection or plasmid transformation, wherein a decrease in phage or plasmid sensitivity below a predetermined threshold as compared to a prokaryotic cell of the same origin not genetically modified to express the selected cassette of genes is indicative of a defensive effect.

In some embodiments, validating the defensive effect is effected by contacting a prokaryotic cell with an agent capable of downregulating expression and/or activity of at least one gene of the selected cassette of genes in a prokaryotic cell and subjecting the prokaryotic cell to phage infection or plasmid transformation, wherein an increase in phage or plasmid sensitivity above a predetermined threshold as compared to a prokaryotic cell of the same origin not contacted with the agent is indicative of a defensive effect.

In some embodiments, the decrease/increase below or above a predetermined threshold is statistically significant.

In some embodiments, the predetermined threshold is at least at least 1.5 fold, at least 2 fold, at least 3 fold, at least 5 fold, at least 10 fold, or at least 20 fold. In some embodiments, the predetermined threshold is at least 2%, at least 5%, at least 10%, at least 20%, at least 30%, at least 40%, at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, e.g., 100%, at least 200%, at least 300%, at least 400%, at least 500%, at least 600%.

A non-limiting example of a method of identifying a defense system, which can be used according to embodiments disclosed herein, is described at least in the Materials and Methods hereinbelow, Example 1, Example 2, and in FIG. 1, which is to be understood as forming an integral part of the present section.

Once selected, the identified cassette of genes comprising said gene with conserved synteny in said plurality of prokaryotic genomes can be cloned or synthesized.

The gene(s) can be ligated into expression constructs and used in a variety of applications e.g., for conferring phage resistance in for example, but not limited to the food, feed, medical and veterinary industries.

In some embodiments, an identified cassette of gene confers phage resistance to a starter culture. In some embodiments, an identified cassette of gene confers phage resistance to a food product. In some embodiments, a food product comprises a dairy product, an alcoholic beverage, or a natto. In some embodiments, an identified cassette of gene confers phage resistance to a dairy product. In some embodiments, an identified cassette of gene confers phage resistance to an alcoholic beverage. In some embodiments, an identified cassette of gene confers phage resistance to a natto.

In some embodiments, an identified cassette of gene confers phage resistance to a milk product. In some embodiments, an identified cassette of gene confers phage resistance to milk. In some embodiments, an identified cassette of gene confers phage resistance to a sour milk. In some embodiments, an identified cassette of gene confers phage resistance to a milk butter milk. In some embodiments, an identified cassette of gene confers phage resistance to a cheese. In some embodiments, an identified cassette of gene confers phage resistance to a yogurt. In some embodiments, an identified cassette of gene confers phage resistance to a viili. In some embodiments, an identified cassette of gene confers phage resistance to yakult. In some embodiments, an identified cassette of gene confers phage resistance to a casein. In some embodiments, an identified cassette of gene confers phage resistance to a wine. In some embodiments, an identified cassette of gene confers phage resistance to a sake. In some embodiments, an identified cassette of gene confers phage resistance to a food additive. In some embodiments, an identified cassette of gene confers phage resistance to a feed. In some embodiments, an identified cassette of gene confers phage resistance to a nutritional supplement. In some embodiments, an identified cassette of gene confers phage resistance to a probiotic supplement. In some embodiments, an identified cassette of gene confers phage resistance to a health care product. In some embodiments, an identified cassette of gene confers phage resistance to an antibiotic. In some embodiments, an identified cassette of gene confers phage resistance to polymyxin. In some embodiments, an identified cassette of gene confers phage resistance to a colistin. In some embodiments, an identified cassette of gene confers phage resistance to a bacitracin. In some embodiments, an identified cassette of gene confers phage resistance to a personal care product. In some embodiments, an identified cassette of gene confers phage resistance to a veterinary product.

Antagonists of Defense Systems and Methods of Use Thereof

In some embodiments, there is provided an antagonist of a defense system disclosed herein, an “anti-defense system agent”. A skilled artisan would appreciate that the terms “anti-defense system agent” and “anti-Defense System agent” and “agent” may in some embodiments, be used interchangeably having all the same elements and qualities. In some embodiments, an anti-defense system agent may antagonize more than one Defense System function. In some embodiments, an anti-defense system agent may antagonize more than one Defense System function, selected from Defense systems Ia-Xc. In some embodiments, an anti-Defense System agent may antagonize more than one Defense System. In some embodiments, an anti-Defense System agent may antagonize more than one Defense System selected from Defense systems Ia-Xc.

In some embodiments, an anti-Defense System agent is capable of down regulating expression and/or activity of at least one Defense System component. In some embodiments, an anti-Defense System agent is capable of down regulating expression and/or activity of at least one Defense System component, wherein said Defense System is selected from Defense Systems Ia-Xc.

In some embodiments, the anti-defense system agent is directed against a defense system component comprising an enzyme activity, for example but not limited to a HamB polypeptide, a SduA polypeptide, a GajA polypeptide, a GajB polypeptide, a PtuA polypeptide, a PtuB polypeptide, a LmuB polypeptide, a ZorD polypeptide, a ZorE polypeptide, a DruE polypeptide, a DruM polypeptide, or a JetC polypeptide. For example, the anti-defense agent may interfere with the expression of an active defense system component or, for example in its DNA methyltransferase function, helicase function, exonuclease function, or endonuclease function. For example, in some embodiments, a methylase activity may be inhibited by the use of common inhibitors of such an enzyme e.g., 5-Azacytidine, Decitabine Zebularine, RG108, Hydralazine hydrochloride, and Psammaplin A.

In some embodiments, an at least one component comprises a component selected from Defense Systems Ia, Ib, II, IIIa, IIIb, IIIc, IV, V, VI, VII, VIII, IX, Xa, Xb, and Xc. In some embodiments, a component comprises a functional component. In some embodiments, a component comprises an essential component. In some embodiments, a component comprises the full-length component. In some embodiments, a component comprises a functional portion of the component.

The components of defense systems comprising a Defense System Ia-Xc and combinations thereof, have been described in detail above. In some embodiments, polypeptide components of these systems include but are not limited to ZorA, ZorB, ZorC, ZorD, ZorE (Defense System Ia and Ib); ThsA and ThsB (Defense System II); DruA, DruB, DruC, DruD, DruE, DruH, DruM, DruG, DruF (Defense Systems IIIa, IIIb, IIIc); HamA and HamB (Defense System IV); SduA (Defense System V); GajA and GajB (Defense System VI); PtuA and PtuB (Defense System VII); LmuA and LmuB (Defense System VIII); KwaA and KwaB (Defense System IX); and JetA, JetB, JetC, and JetD, and variants thereof (Defense Systems Xa, Xb, Xc). In some embodiments, polynucleotide (e.g., gene) components, include but are not limited to zorA, zorB, zorC, zorD, zorE (Defense Systems Ia, Ib); thsA and thsB (Defense System II); druA, druB, druC, drub, druE, druF, druG, druH, druM (Defense Systems IIIa, IIIb, IIIc); hamA and hamB (Defense System IV); sduA (Defense System V); gajA and gajB (Defense System VI); ptuA and ptuB (Defense System VII); lmuA and lmuB (Defense System VIII); kwaA and kwaB (Defense System IX); and jetA, jetB, jetC, and jetD and variants thereof (Defense Systems Xa, Xb, Xc). In some embodiments, a component comprises a component homolog. Defense System components, nucleic acid sequences thereof, and amino acid sequences thereof are presented herein in Table 18.

In some embodiments, a Defense System described herein comprises at least two different polypeptide components. The polypeptide components of the Defense Systems described herein, and the nucleic acids encoding them are described in detail above, and in Tables 8-18. In some embodiments, a Defense System described herein comprises at least three different polypeptide components. In some embodiments, a Defense System described herein comprises at least four different polypeptide components. In some embodiments, a Defense System described herein comprises at least five different polypeptide components. In some embodiments, a Defense System described herein comprises multiple polypeptide components, wherein the components comprise different polypeptides. In some embodiments, a Defense System described herein comprises multiple polypeptide components, wherein the components comprise different polypeptides and duplications of a same polypeptide. In some embodiments, components comprising duplication of a same polypeptide comprise homologues of that polypeptide.

In some embodiments, a Defense System comprising at least two different polypeptide components provides a functional defense activity (protection from foreign nucleic acid) for a cell. In some embodiments, a Defense System described herein comprises at least three different polypeptide components provides a functional defense activity (protection from foreign nucleic acid) for a cell. In some embodiments, a Defense System described herein comprises at least four different polypeptide components provides a functional defense activity (protection from foreign nucleic acid) for a cell. In some embodiments, a Defense System described herein comprises at least five different polypeptide components provides a functional defense activity (protection from foreign nucleic acid) for a cell. In some embodiments, a Defense System described herein comprises multiple polypeptide components, wherein the components comprise different polypeptides, and wherein the Defense System provides a functional defense activity (protection from foreign nucleic acid) for a cell. In some embodiments, a Defense System described herein comprises multiple polypeptide components, wherein the components comprise different polypeptides and duplications of a same polypeptide, wherein said Defense System provides a functional defense activity (protection from foreign nucleic acid) for a cell. In some embodiments, components comprising duplication of a same polypeptide comprise homologues of that polypeptide.

In some embodiments, an agent is capable of down regulating expression and/or activity of at least two components of a defense system. In some embodiments, an agent is capable of down regulating at least one components of at least two different Defense Systems. In some embodiments, an agent is capable of down regulating expression and/or activity of at least two components of a Defense System. In some embodiments, an agent is capable of down regulating at least two components of the same Defense System. In some embodiments, an agent is capable of down regulating expression and/or activity of at least two components of a Defense System selected from the components of Defense Systems Ia-Xc.

In some embodiments, an agent is capable of down regulating expression and/or activity of 1-40 components of a defense system. In some embodiments, an agent is capable of down regulating expression and/or activity of 1-4 components of a defense system. In some embodiments, an agent is capable of down regulating expression and/or activity of 1-5 components of a defense system. In some embodiments, an agent is capable of down regulating expression and/or activity of 1-10 components of a defense system. In some embodiments, an agent is capable of down regulating expression and/or activity of 10-20 components of a defense system. In some embodiments, an agent is capable of down regulating expression and/or activity of 20-30 components of a defense system. In some embodiments, an agent is capable of down regulating expression and/or activity of 30-40 components of a defense system. In some embodiments, an agent is capable of down regulating expression and/or activity of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, or 43 components of a defense system. In some embodiments, an agent is capable of down regulating at least one components of at least two different Defense Systems. In some embodiments, an agent is capable of down regulating expression and/or activity of at least two components of a Defense System. In some embodiments, an agent is capable of down regulating at least two components of the same Defense System. In some embodiments, an agent is capable of down regulating expression and/or activity of at least two components of a Defense System selected from the components of Defense Systems Ia-Xc.

A skilled artisan would recognize that the phrase “anti-Defense agent” encompasses an agent capable of specifically inhibiting the expression of a target Defense System gene (at the DNA or RNA level) or alternatively specifically impairing the functionality of the target Defense System protein. In some embodiments, an agent is capable of specifically inhibiting the expression of a target Defense System component (at the DNA or RNA level) or alternatively specifically impairing the functionality of the target Defense System component polypeptide.

In some embodiments, the anti-Defense system agent is directed against one of the Defense System components. In some embodiments, the anti-Defense System agent is directed against multiple components of a Defense System. In some embodiments, the anti-Defense System agent is directed against at least 2 components of a Defense System. In some embodiments, the anti-Defense System agent is directed against at least 3 components of a Defense System. In some embodiments, the anti-Defense System agent is directed against at least 4 components of a Defense System. In some embodiments, the anti-Defense System agent is directed against at least 5 components of a Defense System.

In some embodiments, the anti-Defense system agent is directed against any of the components disclosed in Table 18. In some embodiments, the anti-Defense system agent is directed against any combination of the components disclosed in Table 18. In some embodiments, the combination of components may be from a same Defense System selected from Defense Systems Ia-Xc. In some embodiments, the combination of components may be from different Defense Systems selected from Defense Systems Ia-Xc. In some embodiments, the combination of components may be from the same and different Defense Systems selected from Defense Systems Ia-Xc.

In some embodiments, the agent is directed against all of the components of a single Defense System. In some embodiments, the agent is directed against all of the essential components of a single Defense System. In some embodiments, the agent is directed against all of the components of a single Defense System selected from Defense Systems Ia-Xc. In some embodiments, the agent is directed against all of the essential components of a single Defense System, selected from Defense Systems Ia-Xc.

Down regulation of a Defense System can be effected on the genomic and/or the transcript level using a variety of molecules that interfere with transcription and/or translation (e.g., RNA silencing agents), or on the protein level using e.g., aptamers, small molecules and inhibitory peptides, antagonists, enzymes that cleave the polypeptide and the like.

In some embodiments the anti-Defense System agent is selected from the group consisting of a nucleic acid suitable for silencing expression, aptamers, small molecules and inhibitory peptides.

A skilled artisan would appreciate that the phrase “nucleic acid suitable for silencing expression” refers to regulatory mechanisms mediated by nucleic acid molecules, which result in the inhibition or “silencing” of the expression of a corresponding protein-coding gene.

Methods for qualifying efficacy and detecting inhibition or “silencing” of the expression of a corresponding protein-coding gene are well known in the art and include, but are not limited to, DNA sequencing, electrophoresis, an enzyme-based mismatch detection assay and hybridization assay such as PCR, RT-PCR, RNase protection, in-situ hybridization, primer extension, Southern blot, Northern Blot and dot blot analysis. Inhibition or “silencing” of the expression of a specific protein-coding gene can also be determined at the protein level using e.g. chromatography, electrophoretic methods, immunodetection assays such as ELISA and Western blot analysis or immunohistochemistry. In addition, one ordinarily skilled in the art can readily design a knock-in/knock-out construct including positive and/or negative selection markers for efficiently selecting transformed cells that e.g. underwent a homologous recombination event with the construct.

In some embodiments, downregulation can be achieved by DNA silencing.

Methods of introducing nucleic acid alterations to a gene of interest are well known in the art [see for example Menke D. Genesis (2013) 51: 618; Capecchi, Science (1989) 244:1288-1292; Santiago et al. Proc Natl Acad Sci USA (2008) 105:5809-5814; International Patent Application Nos. WO 2014085593, WO 2009071334 and WO 2011146121; U.S. Pat. Nos. 8,771,945, 8,586,526, 6,774,279 and UP Patent Application Publication Nos. 20030232410, 20050026157, US20060014264; the contents of which are incorporated by reference in their entireties] and include targeted homologous recombination, site specific recombinases, PB transposases and genome editing by engineered nucleases.

Non-limiting examples of DNA silencing agents that can be used In some embodiments include: the “Hit and run” or “in-out” strategy; the “double-replacement” or “tag and exchange” strategy; site-specific recombinases such as, but not limited to, cre recombinase and Flp recombinase; genome editing using engineered endonucleases such as, but not limited to, meganucleases, Zinc finger nucleases (ZFNs), transcription-activator like effector nucleases (TALENs) and CRISPR/Cas system; transposases; and genome editing using recombinant adeno-associated virus (rAAV) platform.

It will be appreciated that the agent can be a mutagen that causes random mutations and the cells exhibiting downregulation of the expression level and/or activity of a component or components of a Defense System disclosed herein, for example but not limited to the components and Defense Systems disclosed in Table 18. The mutagens may be, but are not limited to, genetic, chemical or radiation agents.

Downregulation can also be achieved by RNA silencing.

In certain embodiments, the RNA silencing agent is capable of preventing complete processing (e.g., the full translation and/or expression) of an mRNA molecule through a post-transcriptional silencing mechanism. RNA silencing agents include non-coding RNA molecules, for example RNA duplexes comprising paired strands, as well as precursor RNAs from which such small non-coding RNAs can be generated. Exemplary RNA silencing agents include dsRNAs such as siRNAs, miRNAs and shRNAs.

In some embodiments, the RNA silencing agent is capable of inducing RNA interference. In some embodiments, the RNA silencing agent is capable of mediating translational repression.

In some embodiments, the RNA silencing agent is specific to the target RNA of a component of a Defense System disclosed herein, and does not cross inhibit or silence other targets or a splice variant which exhibits 99% or less global homology to the target gene, e.g., less than 98%, 97%, 96%, 95%, 94%, 93%, 92%, 91%, 90%, 89%, 88%, 87%, 86%, 85%, 84%, 83%, 82%, 81% global homology to the target gene; as determined by PCR, Western blot, Immunohistochemistry and/or flow cytometry.

Non-limiting examples of RNA silencing agents that can be used in some embodiments include but are not limited to antisense, DsRNA, siRNA, shRNA, miRNA and miRNA mimics.

Numerous methods are known in the art for gene silencing particularly in prokaryotes; examples include but are not limited to U.S. Patent Application 20040053289 which teaches the use of si hybrids to down-regulate prokaryotic genes, and U.S. Patent Application PCT/US09/69258 which teaches the use of CRISPR to downregulate prokaryotic genes.

In some embodiments, the inhibition can be carried out at the protein level which interferes with protein activity, such as by the use of aptamers. Various methods are known in the art which can be used to design protein specific aptamers. The skilled artisan can employ SELEX (Systematic Evolution of Ligands by Exponential Enrichment) for efficient selection as described in Stoltenburg R, Reinemann C, and Strehlitz B (Biomolecular engineering (2007) 24(4):381-403).

In some embodiments, a small molecule, peptides or antibodies can be used which interfere with the Defense System component(s) protein function (e.g., catalytic or interaction).

In some embodiments, an anti-Defense agent comprises any molecule which binds to and/or cleaves a Defense System component gene or component polypeptide. Such molecules can be, for example, a small molecule, antagonists, or inhibitory peptide.

It will be appreciated that a non-functional analogue of at least a catalytic or binding portion of a Defense System polypeptide component can be also used as an anti-Defense System agent.

In some embodiments, there is provided a method of inducing phage sensitivity in bacteria, the method comprising introducing the agent disclosed herein into bacteria, which expresses a defense system having an anti-phage activity, said system comprising at least one component selected from the group consisting of said component polypeptides of said Defense System, thereby inducing sensitivity of the bacteria to phage infection.

In some embodiments, there is provided a method of killing bacteria, the method comprising introducing into bacteria, which expresses a defense system having an anti-phage activity, as described herein, an anti-defense system agent capable of down regulating expression and/or activity of a component polypeptide of the defense system, thereby killing the bacteria.

In another embodiment, there is provided an isolated anti-defense system agent capable of down regulating expression and/or activity of at least two defense system components. In some embodiments, the bacteria express the at least one Defense System component for which the anti-Defense System agent is directed against.

In some embodiments, the method further comprises infecting said bacteria with a phage.

Specifically, introducing an anti-Defense System agent is effected such that the positioning of the anti-Defense System agent is in direct or indirect contact with the bacterial cell. In some embodiments, both applying the anti-Defense System agent or agents disclosed herein to a desirable surface and/or directly to the bacterial cells. In some embodiments, the surface is comprised in a biological tissue, such as for example, mammalian tissues e.g. the skin.

It will be appreciated that the bacteria may be comprised inside a particular organism, (e.g. intracellularly or extracellularly) for example inside a mammalian body or inside a plant. In this case, the introducing may be effected by administering the anti-Defense System agent per se or by transfecting the cells of the organism with the anti-Defense System agents.

In some embodiments, introducing with an anti-Defense System agent is effected in-vivo. In some embodiments, introducing with an anti-Defense System agent is effected ex-vivo. In some embodiments, introducing with an anti-Defense System agent is effected in-vitro.

In some embodiments, there is provided isolated bacteria generated by introducing into bacteria an anti-Defense System agent as described above. In some embodiments, there is provided isolated bacteria generated by introducing into the bacteria an anti-Defense System agent in-vitro or ex-vivo.

Thus, following the above teachings there is provided isolated bacteria comprising the anti-Defense System agent.

According to some embodiments, a Defense System or an anti-Defense System agent is provided in a formulation suitable for cell penetration that enhances intracellular delivery of the system or the agent.

Any suitable penetrating agent for enhancing penetration of a Defense System or its components or an anti-Defense System agent to cell (e.g., bacteria) may be used, as known by those of skill in the art. Examples include but are not limited to:

Phages—Phages offer several advantages including lateral infection, higher efficiency of transformation, and targeting to, and propagation in, specific bacteria.

Cell-Penetrating Peptides (CPPs)—CPPs, for example TAT (transcription activator from HIV-1) are short peptides (≤40 amino acids), with the ability to gain access to the interior of almost any cell. They are highly cationic and usually rich in arginine and lysine amino acids. They have the exceptional property of carrying into the cells a wide variety of covalently and noncovalently conjugated cargoes such as proteins, oligonucleotides, and even 200 nm liposomes. Protocols for producing CPPs-cargos conjugates and for infecting cells with such conjugates can be found, for example L. Theodore et al. [The Journal of Neuroscience, (1995) 15(11): 7158-7167], Fawell S, et al. [Proc Natl Acad Sci USA, (1994) 91:664-668], and Jing Bian et al. [Circulation Research. (2007) 100: 1626-1633].

The expression level and/or activity level of the Defense System components expressed in the cells of some embodiments can be determined using methods known in the arts, e.g. but not limited to selectable marker gene, Northern blot analysis, PCR analysis, DNA sequencing, RNA sequencing, Western blot analysis or Immunohistochemistry.

In some embodiments, there is provided a method of treating bacterial infection in a subject in need thereof, the method comprising administering to the subject a therapeutically effective amount of the anti-Defense System agent, thereby treating the bacterial infection in the subject. In some embodiments, there is provided the agent, for use in the treatment of bacterial infection in a subject in need thereof.

A skilled artisan would appreciate that the term “treating” encompasses in some embodiments, curing, reversing, attenuating, alleviating, minimizing, suppressing or halting the deleterious effects of a pathogen infection. Those of skill in the art will understand that various methodologies and assays can be used to assess the development of the pathology, and similarly, various methodologies and assays may be used to assess the reversal, attenuation, alleviation or suppression of the pathology.

In some embodiments, a “subject in need thereof” includes but is not limited to mammals. In some embodiments, the subject comprises a human being of any gender and at any age which suffer from pathogen infection.

The anti-Defense System agent may be used alone or together with additional antimicrobial agents (e.g. phage therapy, antibiotic and/or additional anti-microbial peptides).

In some embodiments, a method disclosed herein further comprises administering to the subject a phage therapy and/or an antibiotic. In some embodiments, the uses further comprise a phage therapy and/or an antibiotic.

In some embodiments, antibiotics include, but are not limited to aminoglycoside antibiotics, cephalosporins, quinolone antibiotics, macrolide antibiotics, penicillin, sulfonamides, tetracyclines and carbapenems. It will be appreciated that since the agents disclosed herein, enhance the anti-bacterial effect of the antibiotic, doses of the antibiotic may be lower (e.g. 20% lower, 30% lower, 40% lower, 50% lower, 60% lower, 70% lower, 80% lower or even 90% lower) than those currently in use.

In the context of manufacturing of food products and especially fermented products in the food industry, an anti-Defense System agent can be used to eliminate spoilage bacteria or the end product from traces of used bacteria.

Thus, in some embodiments, there is provided a method of preparing a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product, the method comprising adding to the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product the anti-Defense System agent, thereby preparing the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product.

Following the above teachings there is provided a food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product and veterinary product comprising the anti-Defense System agent.

The nucleic acid sequences, constructs, transmissible elements, polypeptides and cells comprising the Defense System components or the anti-Defense System agent of some embodiments, can be administered to a starter culture, a fermentation vat or an organism per se, or in a composition where it is mixed with suitable carriers or excipients.

The phrase “pharmaceutical composition” as used herein refers to a preparation of one or more of the active ingredients described herein with other chemical components such as physiologically suitable carriers and excipients. The purpose of a pharmaceutical composition is to facilitate administration of a compound to an organism.

Hereinafter, the phrases “physiologically acceptable carrier” and “pharmaceutically acceptable carrier” which may be interchangeably used refer to a carrier or a diluent that does not cause significant irritation to an organism and does not abrogate the biological activity and properties of the administered compound. An adjuvant is included under these phrases.

Herein, the term “excipient” refers to an inert substance added to a pharmaceutical composition to further facilitate administration of an active ingredient. Examples, without limitation, of excipients include calcium carbonate, calcium phosphate, various sugars and types of starch, cellulose derivatives, gelatin, vegetable oils, and polyethylene glycols.

As used herein the term “active ingredient” refers to any one of the component polypeptides or polynucleotides of a Defense System, an anti-Defense System agent, or cells generated according to the methods disclosed herein, accountable for the biological effect.

Techniques for formulation and administration of drugs may be found in the latest edition of “Remington's Pharmaceutical Sciences,” Mack Publishing Co., Easton, Pa., which is herein fully incorporated by reference and are further described herein below.

It will be appreciated that the polypeptides, polynucleotides, nucleic acid construct(s) or other agents can be provided to the individual with additional active agents to achieve an improved therapeutic effect as compared to treatment with each agent by itself.

In some embodiments, additional agents include phage therapy and antibiotics (e.g. rifampicin, chloramphenicol and spectinomycin).

In some embodiments, the composition further comprises a phage.

Suitable routes of administration may, for example, include oral, rectal, transmucosal, especially transnasal, intestinal or parenteral delivery, including intramuscular, subcutaneous and intramedullary injections as well as intrathecal, direct intraventricular, intracardiac, e.g., into the right or left ventricular cavity, into the common coronary artery, intravenous, intraperitoneal, intranasal, or intraocular injections.

Conventional approaches for drug delivery to the central nervous system (CNS) include: neurosurgical strategies (e.g., intracerebral injection or intracerebroventricular infusion); molecular manipulation of the agent (e.g., production of a chimeric fusion protein that comprises a transport peptide that has an affinity for an endothelial cell surface molecule in combination with an agent that is itself incapable of crossing the BBB) in an attempt to exploit one of the endogenous transport pathways of the BBB; pharmacological strategies designed to increase the lipid solubility of an agent (e.g., conjugation of water-soluble agents to lipid or cholesterol carriers); and the transitory disruption of the integrity of the BBB by hyperosmotic disruption (resulting from the infusion of a mannitol solution into the carotid artery or the use of a biologically active agent such as an angiotensin peptide). However, each of these strategies has limitations, such as the inherent risks associated with an invasive surgical procedure, a size limitation imposed by a limitation inherent in the endogenous transport systems, potentially undesirable biological side effects associated with the systemic administration of a chimeric molecule comprised of a carrier motif that could be active outside of the CNS, and the possible risk of brain damage within regions of the brain where the BBB is disrupted, which renders it a suboptimal delivery method.

Alternately, one may administer the pharmaceutical composition in a local rather than systemic manner, for example, via injection of the pharmaceutical composition directly into a tissue region of a patient.

Pharmaceutical compositions may be manufactured by processes well known in the art, e.g., by means of conventional mixing, dissolving, granulating, dragee-making, levigating, emulsifying, encapsulating, entrapping or lyophilizing processes.

Pharmaceutical compositions for use in accordance with the disclosure herein, may be formulated in conventional manner using one or more physiologically acceptable carriers comprising excipients and auxiliaries, which facilitate processing of the active ingredients into preparations which, can be used pharmaceutically. Proper formulation is dependent upon the route of administration chosen.

For injection, the active ingredients may be formulated in aqueous solutions, preferably in physiologically compatible buffers such as Hank's solution, Ringer's solution, or physiological salt buffer. For transmucosal administration, penetrants appropriate to the barrier to be permeated are used in the formulation. Such penetrants are generally known in the art.

For oral administration, the compounds can be formulated readily by combining the active compounds with pharmaceutically acceptable carriers well known in the art. Such carriers enable the compounds to be formulated as tablets, pills, dragees, capsules, liquids, gels, syrups, slurries, suspensions, and the like, for oral ingestion by a patient. Pharmacological preparations for oral use can be made using a solid excipient, optionally grinding the resulting mixture, and processing the mixture of granules, after adding suitable auxiliaries if desired, to obtain tablets or dragee cores. Suitable excipients are, in particular, fillers such as sugars, including lactose, sucrose, mannitol, or sorbitol; cellulose preparations such as, for example, maize starch, wheat starch, rice starch, potato starch, gelatin, gum tragacanth, methyl cellulose, hydroxypropylmethyl-cellulose, sodium carbomethylcellulose; and/or physiologically acceptable polymers such as polyvinylpyrrolidone (PVP). If desired, disintegrating agents may be added, such as cross-linked polyvinyl pyrrolidone, agar, or alginic acid or a salt thereof such as sodium alginate.

Dragee cores are provided with suitable coatings. For this purpose, concentrated sugar solutions may be used which may optionally contain gum arabic, talc, polyvinyl pyrrolidone, carbopol gel, polyethylene glycol, titanium dioxide, lacquer solutions and suitable organic solvents or solvent mixtures. Dyestuffs or pigments may be added to the tablets or dragee coatings for identification or to characterize different combinations of active compound doses.

Pharmaceutical compositions, which can be used orally, include push-fit capsules made of gelatin as well as soft, sealed capsules made of gelatin and a plasticizer, such as glycerol or sorbitol. The push-fit capsules may contain the active ingredients in admixture with filler such as lactose, binders such as starches, lubricants such as talc or magnesium stearate and, optionally, stabilizers. In soft capsules, the active ingredients may be dissolved or suspended in suitable liquids, such as fatty oils, liquid paraffin, or liquid polyethylene glycols. In addition, stabilizers may be added. All formulations for oral administration should be in dosages suitable for the chosen route of administration.

For buccal administration, the compositions may take the form of tablets or lozenges formulated in conventional manner.

For administration by nasal inhalation, the active ingredients for use according to the disclosure herein are conveniently delivered in the form of an aerosol spray presentation from a pressurized pack or a nebulizer with the use of a suitable propellant, e.g., dichlorodifluoromethane, trichlorofluoromethane, dichloro-tetrafluoroethane or carbon dioxide. In the case of a pressurized aerosol, the dosage unit may be determined by providing a valve to deliver a metered amount. Capsules and cartridges of, e.g., gelatin for use in a dispenser may be formulated containing a powder mix of the compound and a suitable powder base such as lactose or starch.

The preparations described herein may be formulated for parenteral administration, e.g., by bolus injection or continuous infusion. Formulations for injection may be presented in unit dosage form, e.g., in ampoules or in multidose containers with optionally, an added preservative. The compositions may be suspensions, solutions or emulsions in oily or aqueous vehicles, and may contain formulatory agents such as suspending, stabilizing and/or dispersing agents.

Pharmaceutical compositions for parenteral administration include aqueous solutions of the active preparation in water-soluble form. Additionally, suspensions of the active ingredients may be prepared as appropriate oily or water based injection suspensions. Suitable lipophilic solvents or vehicles include fatty oils such as sesame oil, or synthetic fatty acids esters such as ethyl oleate, triglycerides or liposomes. Aqueous injection suspensions may contain substances, which increase the viscosity of the suspension, such as sodium carboxymethyl cellulose, sorbitol or dextran. Optionally, the suspension may also contain suitable stabilizers or agents which increase the solubility of the active ingredients to allow for the preparation of highly concentrated solutions.

Alternatively, the active ingredient may be in powder form for constitution with a suitable vehicle, e.g., sterile, pyrogen-free water based solution, before use.

The preparation may also be formulated in rectal compositions such as suppositories or retention enemas, using, e.g., conventional suppository bases such as cocoa butter or other glycerides.

The preparation may also be formulated as a topical composition, such as a spray, a cream, a mouthwash, a wipe, a foam, a soap, an oil, a solution, a lotion, an ointment, a paste, a gel and a patch.

Pharmaceutical compositions suitable for use in context include compositions wherein the active ingredients are contained in an amount effective to achieve the intended purpose. More specifically, a therapeutically effective amount means an amount of active ingredients effective to prevent, alleviate or ameliorate symptoms of disease (e.g., bacterial infection) or prolong the survival of the subject being treated.

Determination of a therapeutically effective amount is well within the capability of those skilled in the art.

For any preparation used in the methods disclosed herein, the therapeutically effective amount or dose can be estimated initially from in vitro assays. For example, a dose can be formulated in animal models and such information can be used to more accurately determine useful doses in humans.

Toxicity and therapeutic efficacy of the active ingredients described herein can be determined by standard pharmaceutical procedures in vitro, in cell cultures or experimental animals. The data obtained from these in vitro and cell culture assays and animal studies can be used in formulating a range of dosage for use in human. The dosage may vary depending upon the dosage form employed and the route of administration utilized. The exact formulation, route of administration and dosage can be chosen by the individual physician in view of the patient's condition. [See e.g., Fingl, et al., (1975) “The Pharmacological Basis of Therapeutics”, Ch. 1 p. 1].

Depending on the severity and responsiveness of the condition to be treated, dosing can be of a single or a plurality of administrations, with course of treatment lasting from several days to several weeks or until cure is effected or diminution of the disease state is achieved.

The amount of a composition to be administered will, of course, be dependent on e.g. the subject being treated, the severity of the affliction, the manner of administration, the judgment of the prescribing physician, etc.

Compositions of some embodiments, may, if desired, be presented in a pack or dispenser device, such as an FDA approved kit, which may contain one or more unit dosage forms containing the active ingredient. The pack may, for example, comprise metal or plastic foil, such as a blister pack. The pack or dispenser device may be accompanied by instructions for administration. The pack or dispenser may also be accommodated by a notice associated with the container in a form prescribed by a governmental agency regulating the manufacture, use or sale of pharmaceuticals, which notice is reflective of approval by the agency of the form of the compositions or human or veterinary administration. Such notice, for example, may be of labeling approved by the U.S. Food and Drug Administration for prescription drugs or of an approved product insert. Compositions comprising a preparation formulated in a compatible pharmaceutical carrier may also be prepared, placed in an appropriate container, and labeled for treatment of an indicated condition, as is further detailed above.

In some embodiments, there is provided an article of manufacture or a kit identified for treating bacterial infection comprising the anti-Defense System agent; and a phage and/or an antibiotic. In some embodiments, the anti-Defense System agent and the phage and/or the antibiotic are packaged in separate containers. In some embodiments, the anti-Defense System agent and the phage and/or the antibiotic are in co-formulation.

In some embodiments, there is provided a method of screening for identifying phage useful for infecting bacteria, the method comprising:

(a) contacting a phage with bacteria expressing a Defense System; and

(b) determining deleterious effects induced in said bacteria, wherein an increase in deleterious effects of said bacteria in the presence of said phage compared to deleterious effects in the absence of said phage is indicative of a phage useful for infecting said bacteria.

In some embodiments, the method comprising further isolating the phage, characterizing it in terms of sequencing and compatibility with phages species and the ability to infect different bacterial species.

Use of a Defense System or Components Thereof, for Gene Editing

In some embodiments, disclosed herein is a method of gene editing, the method comprising contacting a nucleic acid sequence with a defense system component, as described herein, wherein said contact edits a gene sequence within the nucleic acid. In some embodiments, said editing comprises deleting a gene, deleting a portion of a gene, deleting upstream regulatory sequences of a gene, deleting downstream regulatory sequences of a gene, deleting upstream and downstream regulatory sequences of a gene, repairing a gene sequence, replacing a gene, replacing a part of a gene, replacing an upstream sequence of a gene, replacing a downstream sequence of a gene, replacing an upstream and a downstream sequence of a gene, modifying a gene sequence, modifying a sequence upstream of a gene, modifying a sequence downstream of a gene, modifying a sequence upstream and downstream of a gene, or a combination thereof.

In some embodiments, use of a defense system component, as described herein, for gene editing provides greater precision in editing a nucleotide sequence. In some embodiments, gene editing provides greater precision of cutting the nucleotide sequence at a cleavage site. In some embodiments, gene editing comprising cutting the nucleic acid sequence at a specific cleavage site. In some embodiments, gene editing comprising cutting the nucleic acid sequence based on the modification of nucleotides within the nucleic acid. In some embodiments, gene editing comprising inhibition of cutting the nucleic acid sequence based on the modification of nucleotides within the nucleic acid. In some embodiments, cleavage comprises cleavage of the phosphodiester bond within a nucleotide sequence. In some embodiments, cleavage is ATP dependent.

In some embodiments, use of a defense system component, as described herein, for gene editing provides separation of two annealed nucleic acid strands. In some embodiments, gene editing comprises separation of double stranded DNA. In some embodiments, gene editing comprises separation of double stranded RNA. In some embodiments, gene editing comprises separation of a double stranded RNA-DNA hybrid. In some embodiments, separation uses energy derived from ATP hydrolysis. In some embodiments, separation of a double stranded sequence is based on the specific sequence of the double stranded sequence. In some embodiments, separation of a double stranded sequence is based on the methylation pattern within the double stranded sequence. In some embodiments, separation of a double stranded sequence is based on the modification pattern within the double stranded sequence.

In some embodiments, use of a defense system component, as described herein, for gene editing provides unwinding of a double stranded nucleic acid sequence one base at a time. In some embodiments, unwinding is of a double stranded DNA. In some embodiments, unwinding is of a double stranded RNA. In some embodiments, unwinding is of a hybrid double stranded RNA-DNA. In some embodiments, unwinding uses energy derived from ATP hydrolysis. In some embodiments, unwinding of a double stranded sequence is based on the specific sequence of the double stranded sequence. In some embodiments, unwinding of a double stranded sequence is based on the methylation pattern within the double stranded sequence. In some embodiments, unwinding of a double stranded sequence is based on the modification pattern within the double stranded sequence.

In some embodiments, use of a defense system component, as described herein, for gene editing provides cleaving nucleotides one at a time from the end of a polynucleotide chain. In some embodiments, the polynucleotide change comprises DNA. In some embodiments, the polynucleotide chain comprises RNA. In some embodiments, the polynucleotide chain comprises a hybrid RNA-DNA construct. In some embodiments, cleavage is based on the specific sequence of the double stranded sequence. In some embodiments, cleavage is based on the methylation pattern within the double stranded sequence. In some embodiments, cleavage is based on the modification pattern within the double stranded sequence.

In some embodiments, use of a defense system component, as described herein, for gene editing provides overwinding or underwinding of DNA. In some embodiments, the overwinding or underwinding comprises cleavage of the phosphate backbone of one of the DNA strands. In some embodiments, the overwinding or underwinding comprises cleavage of the phosphagen backbone of both of the DNA strands. In some embodiments, overwinding or underwinding is based on the specific sequence of the double stranded sequence. In some embodiments, overwinding or underwinding is based on the methylation pattern within the double stranded sequence. In some embodiments, overwinding or underwinding is based on the modification pattern within the double stranded sequence.

In some embodiments, modifications comprise methylation and acetylation. In some embodiments, methylation comprises methylation of adenine bases. In some embodiments, methylation comprises methylation of cytosine bases.

In some embodiments, gene editing comprises cutting the nucleic acid sequence based on the methylation pattern of the nucleic acid. In some embodiments, gene editing comprising cutting the nucleic acid sequence based on the lack of methylation of the nucleic acid. In some embodiments, gene editing comprises inhibition of cutting the nucleic acid sequence based on the methylation pattern of the nucleic acid. In some embodiments, gene editing comprising inhibition of cutting the nucleic acid sequence based on the lack of methylation of the nucleic acid.

A skilled artisan would appreciate that the terms “cutting” and “cleaving” may be used interchangeably in some embodiments, having all the qualities and meanings.

In some embodiments, cutting a nucleic acid sequence comprises cleavage of a single stranded nucleic acid. In some embodiments, cutting a nucleic acid sequence comprises cleavage of a double stranded nucleic acid. In some embodiments, cutting a nucleic acid sequence comprises cleavage of a DNA molecule. In some embodiments, cutting a nucleic acid sequence comprises cleavage of an RNA molecule.

In some embodiments, cutting a nucleic acid sequence comprises recognizing a specific nucleotide sequence. In some embodiments, cutting a nucleic acid sequence comprises recognizing a specific pattern of methylation of a nucleotide sequence. In some embodiments, editing comprising inhibiting cleavage of a nucleic acid sequence, wherein said inhibition of cleavage comprises recognizing a specific pattern of methylation of the nucleotide sequence.

In some embodiments, the nucleotide sequence being edited is comprised in a cell. In some embodiments, the nucleotide sequence being edited is not comprised within a cell. In some embodiments, editing of a nucleotide sequence within a cell, comprises genetically engineering the cell.

In some embodiments, genetic engineering of a cell comprises deleting a gene, deleting a portion of a gene, deleting upstream regulatory sequences of a gene, deleting downstream regulatory sequences of a gene, deleting upstream and downstream regulatory sequences of a gene, repairing a gene sequence, replacing a gene, replacing a part of a gene, replacing an upstream sequence of a gene, replacing a downstream sequence of a gene, replacing an upstream and a downstream sequence of a gene, modifying a gene sequence, modifying a sequence upstream of a gene, modifying a sequence downstream of a gene, modifying a sequence upstream and downstream of a gene, or a combination thereof, within the cell.

In some embodiments, a cell comprises a eukaryotic cell. In some embodiments, a cell comprises a prokaryotic cell. In some embodiments, a cell comprises a plant cell. In some embodiments, a cell comprises a yeast cell. In some embodiments, a cell comprises a protozoa cell.

In some embodiments, genetic engineering of a cell provides cells useful in treating a disease.

In some embodiments, genetic engineering of a plant cell provides for improved plant growth. In some embodiments, genetic engineering of a plant cell provides for improved plant growth under adverse conditions, including but not limited to extreme heat, extreme cold, drought, high salt content, lack of nutrients, or any combination thereof. In some embodiments, genetic engineering of a plant cell provides for higher crop yield. In some embodiments, genetic engineering of a plant cell provides for higher crop yield under adverse conditions, including but not limited to extreme heat, extreme cold, drought, high salt content, lack of nutrients, or any combination thereof.

In some embodiments, gene editing provides improved identification and validation of therapeutic agents. In some embodiments, gene editing provides improved development and production of animal models of human disease. In some embodiments, uses of gene editing leading to improvements comprises performing the work in a shorter amount of time and with more precision.

In some embodiments, a method of gene editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a defense system as described herein, thereby editing the nucleic acid sequence. In some embodiments, a method of cutting a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a defense system as described herein, thereby cutting the nucleic acid sequence.

Components of defense systems have been described in detail here (Tables 7-17 and 18).

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System Ia, said component comprising a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, or a ZorD polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System Ib, said component comprising a ZorA polypeptide, a ZorB polypeptide, or a ZorD polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System II, said component comprising a ThsA polypeptide or a ThsB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System IIIa, said component comprising a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, or a DruE polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System IIIb, said component comprising a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, or a DruE polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System IIIc, said component comprising a DruH polypeptide, or a DruE polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System IV, said component comprising a HamA polypeptide or a HamB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System V, said component comprising a SduA polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System VI, said component comprising a GajA polypeptide or a GajB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System VII, said component comprising a PtuA polypeptide or a PtuB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System VIII, said component comprising a LmuA polypeptide or a LmuB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System IX, said component comprising a KwaA polypeptide or a KwaB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System Xa, said component comprising a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, or a JetD polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System Xb, said component comprising a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, or a JetD^(ii) polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises contacting the nucleic acid sequence with a component of a Defense System Xc, said component comprising a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, or a JetD^(ii) polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence comprises editing said sequence within a cell. One skilled in the art would appreciate that a method of editing a nucleic acid sequence within a cell comprises in some embodiments, expressing a component of a defense system in the cell. Genes encoding the components of defense systems described herein, have been described in detail (Tables 7-17 and 18).

In some embodiments, contacting the nucleic acid sequence with the defense system component can be performed by any in vitro conditions including for example, adding a defense system polypeptide to a naked nucleic acid sequence, adding a defense system polypeptide to a cell expressing the nucleic acid sequence, or introducing a defense system gene nucleotide sequence into a cell and expressing the gene sequence, such that the defense system component is in or comes into direct contact with the nucleic acid sequence to be edited.

The contacting may be effected with at least 1, at least 2, at least 3, or at least 4 defense system components.

In some embodiments, the contacting is effected with a ZorA, ZorB, ZorC, or ZorD polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a ZorA, ZorB, or ZorE polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a ThsA or a ThsB polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a DruA, DruB, DruC, DruD, or DruE polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a DruM, DruF, DruG, or DruE polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a DruH or a DruE polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a HamA or a HamB polypeptide, or any combination thereof. In some embodiments, the contacting is affected with a SduA polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a GajA or a GajB polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a PtuA or a PtuB polypeptide, or any combination thereof. In some embodiments, the contacting is affected with a Lmu or a LmuB polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a KwaA or a KwaB polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a JetA, JetB, JetC, or JetD polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a JetA^(ii), JetB^(ii), JetC^(ii), or JetD^(ii) polypeptide, or any combination thereof. In some embodiments, the contacting is effected with a JetA^(iii), JetB^(iii), JetC^(iii), or JetD^(iii) polypeptide, or any combination thereof.

In some embodiments, the nucleic acid sequence being edited is comprised in a cell. In some embodiments, the nucleic acid sequence being edited is comprised in a cell that is not expressing an endogenous defense system or components thereof. In some embodiments, the nucleic acid sequence being edited is comprised in a cell that is not expressing an endogenous functional defense system or components thereof.

In some embodiments, the nucleic acid sequence being edited is not comprised in a cell expressing an endogenous defense system or components thereof. In some embodiments, the nucleic acid sequence being edited is not comprised in a cell expressing an endogenous functional defense system or components thereof.

In some embodiments, wherein the nucleic acid being edited is comprised in a cell expressing a component polypeptide of a defense system, the method further comprises introducing into the cell an agent capable of downregulating expression and/or activity of the expressed component polypeptide.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System Ia within said cell, said component comprising a ZorA polypeptide, a ZorB polypeptide, a ZorC polypeptide, or a ZorD polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System Ib within said cell, said component comprising a ZorA polypeptide, a ZorB polypeptide, or a ZorD polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System II within said cell, said component comprising a ThsA polypeptide or a ThsB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System IIIa within said cell, said component comprising a DruA polypeptide, a DruB polypeptide, a DruC polypeptide, a DruD polypeptide, or a DruE polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System IIIb within said cell, said component comprising a DruM polypeptide, a DruF polypeptide, a DruG polypeptide, or a DruE polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System IIIc within said cell, said component comprising a DruH polypeptide, or a DruE polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System IV within said cell, said component comprising a HamA polypeptide or a HamB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System V within said cell, said component comprising a SduA polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System VI within said cell, said component comprising a GajA polypeptide or a GajB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System VII within said cell, said component comprising a PtuA polypeptide or a PtuB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System VIII within said cell, said component comprising a LmuA polypeptide or a LmuB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System IX within said cell, said component comprising a KwaA polypeptide or a KwaB polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System Xa within said cell, said component comprising a JetA polypeptide, a JetB polypeptide, a JetC polypeptide, or a JetD polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System Xb within said cell, said component comprising a JetA^(ii) polypeptide, a JetB^(ii) polypeptide, a JetC^(ii) polypeptide, or a JetD^(ii) polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a component of a Defense System Xc within said cell, said component comprising a JetA^(iii) polypeptide, a JetB^(iii) polypeptide, a JetC^(iii) polypeptide, or a JetD^(ii) polypeptide, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System Ia within said cell, said gene comprising a zorA gene, a zorB gene, a zorC gene, or a zorD gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System Ib within said cell, said gene comprising a zorA gene, a zorB gene, or a zorD gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System II within said cell, said gene comprising a thsA gene or a thsB gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System IIIa within said cell, said gene comprising a druA gene, a druB gene, a druC gene, a druD polypeptide, or a druE gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System IIIb within said cell, said gene comprising a druM gene, a druF gene, a druG gene, or a druE gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System IIIc within said cell, said gene comprising a druH gene, or a druE gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System IV within said cell, said gene comprising a hamA gene or a hamB gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System V within said cell, said gene comprising a sduA gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System VI within said cell, said gene comprising a gajA gene or a gajB gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System VII within said cell, said gene comprising a ptuA gene or a ptuB gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System VIII within said cell, said gene comprising a lmuA gene or a lmuB gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System IX within said cell, said gene comprising a kwaA gene or a kwaB gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System Xa within said cell, said gene comprising a jetA gene, a jetB gene, a jetC gene, or a jetD gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System Xb within said cell, said gene comprising a jetA^(ii) gene, a jetB^(ii) gene, a jetC^(ii) gene, or a jetD^(ii) gene, thereby editing the nucleic acid sequence.

In some embodiments, a method of editing a nucleic acid sequence within a cell comprises expressing a gene encoding a component of a Defense System Xc within said cell, said gene comprising a jetA^(iii) gene, a jetB^(iii) gene, a jetC^(iii) gene, or a jetD^(iii) gene, thereby editing the nucleic acid sequence.

In some embodiments, the nucleic acid sequence being editing is not comprised in a cell expressing the defense system component. In some embodiments, the nucleic acid sequence being editing is not comprised in a cell expression a defense system polypeptide component comprising a ZorA, ZorB, ZorC, ZorD, ZorE, ThsA, ThsB, DruA, DruB, DruC, DruD, DruE, DruM, DruF, DruG, DruH, HamA, HamB, SduA, GajA, GajB, PtuA, PtuB, LmuA, LmuB, KwaA, KwaB, JetA, JetB, JetC, JetD, JetA^(ii), JetB^(ii), JetC^(ii), JetD^(ii), JetAi^(ii), JetB^(iii), JetC^(iii), or JetD^(iii) polypeptide.

In some embodiments, the nucleic acid sequence being editing is not comprised in a cell expressing a defense system gene encoding the polypeptide component, said gene comprising a zorA, zorB, zorC, zorD, zorE, thsA, thsB, druA, druB, druC, druD, druE, druM, druF, druG, druH, hamA, hamB, sduA, gajA, gajB, ptuA, ptuB, lmuA, lmuB, kwaA, kwaB, jetA, jetB, jetC, jetD, jetA^(ii), jetB^(ii), jetC^(ii), jetD^(ii), jetA^(iii), jetB^(iii), jetC^(iii), or jetD^(iii) gene.

In some embodiments, the nucleic acid sequence being editing is not comprised in a cell expressing a functional defense system component. In some embodiments, the nucleic acid sequence being editing is not comprised in a cell expression a functional defense system polypeptide component comprising a ZorA, ZorB, ZorC, ZorD, ZorE, ThsA, ThsB, DruA, DruB, DruC, DruD, DruE, DruM, DruF, DruG, DruH, HamA, HamB, SduA, GajA, GajB, PtuA, PtuB, LmuA, LmuB, KwaA, KwaB, JetA, JetB, JetC, JetD, JetA^(ii), JetB^(ii), JetC^(ii), JetD^(ii), JetAi^(ii), JetB^(iii), JetC^(iii), or JetD^(iii).

In some embodiments, the nucleic acid sequence being editing is not comprised in a cell expressing a functional defense system gene encoding the polypeptide component, said gene comprising a zorA, zorB, zorC, zorD, zorE, thsA, thsB, druA, druB, druC, druD, druE, druM, druF, druG, druH, hamA, hamB, sduA, gajA, gajB, ptuA, ptuB, lmuA, lmuB, kwaA, kwaB, jetA, jetB, jetC, jetD, jetA^(ii), jetB^(ii), jetC^(ii), jetD^(ii), jetA^(iii), jetB^(iii), jetC^(iii), or jetD^(iii) gene.

In some embodiments, there is provided a method of cloning an expression product of interest, the method comprising:

(a) introducing into a nucleic acid construct a polynucleotide encoding the expression product of interest and a defense system component comprising a nucleic acid cleavage activity, or an unwinding activity; and

(b) further introducing into said nucleic acid construct an additional at least one component of the defense system, thereby cloning the expression product of interest.

In some embodiments, step (b) comprises introducing into said nucleic acid construct any other component of the defense system. In some embodiments, step (b) comprises introducing into said nucleic acid construct all other component of the defense system. In some embodiments, step (b) comprises introducing into said nucleic acid construct component of the defense system to form a functional defense system. According to some embodiments the cell does not express an endogenous defense system. In some embodiments, the nucleic acid sequence being edited is not comprised in a cell expressing an endogenous functional version of the defense system.

In a non-limited example, in some embodiments, there is provided a method of cloning an expression product of interest, the method comprising:

(a) introducing into a nucleic acid construct a polynucleotide encoding the expression product of interest and a DruM; and

(b) introducing into said nucleic acid construct a Druantia (Type II) system component selected from the group consisting of: a DruF polypeptide; a DruG polypeptide; and a DruE polypeptide; or any combination thereof, thereby cloning the expression product of interest.

According to some embodiments the cell does not express an endogenous Druantia system. In some embodiments, the nucleic acid sequence being edited is not comprised in a cell expressing an endogenous functional Druantia (Type II) system.

As used herein the term “about” refers to ±10%

As used herein, the singular form “a”, “an” and “the” include plural references unless the context clearly dictates otherwise. For example, the term “a compound” or “at least one compound” may include a plurality of compounds, including mixtures thereof.

Throughout this application, various embodiments are disclosed that may be presented in a range format. It should be understood that the description in range format is merely for convenience and brevity and should not be construed as an inflexible limitation on the scope. Accordingly, the description of a range should be considered to have specifically disclosed all the possible subranges as well as individual numerical values within that range. For example, description of a range such as from 1 to 6 should be considered to have specifically disclosed subranges such as from 1 to 3, from 1 to 4, from 1 to 5, from 2 to 4, from 2 to 6, from 3 to 6 etc., as well as individual numbers within that range, for example, 1, 2, 3, 4, 5, and 6. This applies regardless of the breadth of the range.

Whenever a numerical range is indicated herein, it is meant to include any cited numeral (fractional or integral) within the indicated range. The phrases “ranging/ranges between” a first indicate number and a second indicate number and “ranging/ranges from” a first indicate number “to” a second indicate number are used herein interchangeably and are meant to include the first and second indicated numbers and all the fractional and integral numerals therebetween.

As used herein the term “method” refers to manners, means, techniques and procedures for accomplishing a given task including, but not limited to, those manners, means, techniques and procedures either known to, or readily developed from known manners, means, techniques and procedures by practitioners of the chemical, pharmacological, biological, biochemical and medical arts.

When reference is made to particular sequence listings, such reference is to be understood to also encompass sequences that substantially correspond to its complementary sequence as including minor sequence variations, resulting from, e.g., sequencing errors, cloning errors, or other alterations resulting in base substitution, base deletion or base addition, provided that the frequency of such variations is less than 1 in 50 nucleotides, alternatively, less than 1 in 100 nucleotides, alternatively, less than 1 in 200 nucleotides, alternatively, less than 1 in 500 nucleotides, alternatively, less than 1 in 1000 nucleotides, alternatively, less than 1 in 5,000 nucleotides, alternatively, less than 1 in 10,000 nucleotides.

EXAMPLES

Reference is now made to the following examples, which together with the above descriptions illustrate some embodiments in a non-limiting fashion.

Generally, the nomenclature used herein, and the laboratory procedures utilized, include molecular, biochemical, microbiological and recombinant DNA techniques. Such techniques are thoroughly explained in the literature. See, for example, “Molecular Cloning: A laboratory Manual” Sambrook et al., (1989); “Current Protocols in Molecular Biology” Volumes I-III Ausubel, R. M., ed. (1994); Ausubel et al., “Current Protocols in Molecular Biology”, John Wiley and Sons, Baltimore, Md. (1989); Perbal, “A Practical Guide to Molecular Cloning”, John Wiley & Sons, New York (1988); Watson et al., “Recombinant DNA”, Scientific American Books, New York; Birren et al. (eds) “Genome Analysis: A Laboratory Manual Series”, Vols. 1-4, Cold Spring Harbor Laboratory Press, New York (1998); methodologies as set forth in U.S. Pat. Nos. 4,666,828; 4,683,202; 4,801,531; 5,192,659 and 5,272,057; “Cell Biology: A Laboratory Handbook”, Volumes I-III Cellis, J. E., ed. (1994); “Culture of Animal Cells—A Manual of Basic Technique” by Freshney, Wiley-Liss, N.Y. (1994), Third Edition; “Current Protocols in Immunology” Volumes I-III Coligan J. E., ed. (1994); Stites et al. (eds), “Basic and Clinical Immunology” (8th Edition), Appleton & Lange, Norwalk, Conn. (1994); Mishell and Shiigi (eds), “Selected Methods in Cellular Immunology”, W. H. Freeman and Co., New York (1980); available immunoassays are extensively described in the patent and scientific literature, see, for example, U.S. Pat. Nos. 3,791,932; 3,839,153; 3,850,752; 3,850,578; 3,853,987; 3,867,517; 3,879,262; 3,901,654; 3,935,074; 3,984,533; 3,996,345; 4,034,074; 4,098,876; 4,879,219; 5,011,771 and 5,281,521; “Oligonucleotide Synthesis” Gait, M. J., ed. (1984); “nucleic Acid Hybridization” Hames, B. D., and Higgins S. J., eds. (1985); “Transcription and Translation” Hames, B. D., and Higgins S. J., eds. (1984); “Animal Cell Culture” Freshney, R. I., ed. (1986); “Immobilized Cells and Enzymes” IRL Press, (1986); “A Practical Guide to Molecular Cloning” Perbal, B., (1984) and “Methods in Enzymology” Vol. 1-317, Academic Press; “PCR Protocols: A Guide To Methods And Applications”, Academic Press, San Diego, Calif. (1990); Marshak et al., “Strategies for Protein Purification and Characterization—A Laboratory Course Manual” CSHL Press (1996); all of which are incorporated by reference as if fully set forth herein. Other general references are provided throughout this document. The procedures therein are well known in the art and are provided for the convenience of the reader. All the information contained therein is incorporated herein by reference.

Materials and Methods

Computational Prediction of Defense Systems

A Set of Gene Families Known to Participate in Defense:

A set of pfams and COGs that are known to participate in anti-phage defense was compiled based on the gene families present in Table S10 from Makarova et al. (2011) Defense islands in bacterial and archaeal genomes and prediction of novel defense systems. J Bacteriol. 193: 6039-56, with the addition of pfams/COGs present in the BREX (Goldfarb T, et al. (2015) BREX is a novel phage resistance system widespread in microbial genomes. EMBO J. EMBO Press; 34: 169-83) and DISARM (Ofir G, et al. (2017) DISARM is a widespread bacterial defense system with broad anti-phage activities. Nat Microbiology 2017 doi: 10.1038/s41564-017-0051-0). This set is found in Table 1.

TABLE 1 Known Defense-associated gene families Used in prediction Defense Defense Variability Family cycle # Source system type Annotation/Comments score score pfam12183 1 Makarova et RM Restriction endonuclease NotI 95.9% 0.38 al. (2011)¹ pfam12161 1 Makarova et RM HsdM N-terminal domain 93.4% 0.21 al. (2011) pfam12008 1 Makarova et RM Type I restriction and 85.7% 0.19 al. (2011) modification enzyme-subunit R C terminal pfam11663 1 Makarova et TA Toxin with endonuclease 75.5% 0.14 al. (2011) activity YhaV pfam11487 1 Makarova et RM Type II restriction enzyme pfam < 20 pfam < 20 al. (2011) SfiI members members pfam11455 1 Makarova et new_system Protein of unknown function 97.1% 0.10 al. (2011) (DUF3018); probable antitoxin associated with Toxin COG2337 pfam11198 1 Makarova et new_system Protein of unknown function 80.0% 0.14 al. (2011) (DUF2857), associated with COG1475, Spo0J pfam11171 1 Makarova et new_RM Protein of unknown function 79.5% 0.34 al. (2011) (DUF2958), fused to Methylase, helicase pfam10832 1 Makarova et TA Protein of unknown function 96.8% 0.03 al. (2011) (DUF2559), TA system component YhfG pfam10784 1 Makarova et TA Plasmid stability protein 55.1% 0.20 al. (2011) pfam10593 1 Makarova et RM Z1 domain 95.3% 0.42 al. (2011) pfam10592 1 Makarova et Abi AIPR protein; abortive 72.4% 0.39 al. (2011) infection phage resistance protein often found in restriction modification system operons; PMID: 18346280 pfam10544 1 Makarova et RM Type III restriction enzyme, 55.1% 0.35 al. (2011) res subunit pfam10543 1 Makarova et new_system ORF6N domain 55.9% 0.26 al. (2011) pfam10387 1 Makarova et new_TA Xre family, TA; Protein of 59.3% 0.42 al. (2011) unknown function (DUF2442) pfam10047 1 Makarova et TA Protein of unknown function 86.9% 0.53 al. (2011) (DUF2281), same as COG2442 (wHTH) pfam10040 1 Makarova et CRISPR RAMP, CRISPR related; 94.6% 0.34 al. (2011) Uncharacterized conserved protein (DUF2276) pfam09957 1 Makarova et TA RHH; Uncharacterized 96.9% 0.06 al. (2011) protein conserved in bacteria (DUF2191); Bacterial antitoxin of type II TA system, VapB pfam09827 1 Makarova et CRISPR CRISPR associated protein 93.0% 0.31 al. (2011) Cas2 pfam09823 1 Makarova et new_system Domain of unknown function 69.1% 0.52 al. (2011) (DUF2357) (often fused to recB-like nuclease domain GI: 218891088) pfam09720 1 Makarova et TA Putative addiction module 81.8% 0.44 al. (2011) component pfam09709 1 Makarova et CRISPR CRISPR-associated protein 97.4% 0.27 al. (2011) (Cas_Csd1) pfam09707 1 Makarova et CRISPR CRISPR-associated protein 98.3% 0.16 al. (2011) (Cas_Cas2CT1978) pfam09706 1 Makarova et CRISPR CRISPR-associated protein 99.4% 0.33 al. (2011) (Cas_CXXC_CXXC) pfam09704 1 Makarova et CRISPR CRISPR-associated protein 99.2% 0.25 al. (2011) (Cas_Cas5) pfam09703 1 Makarova et CRISPR CRISPR-associated protein 100.0% 0.58 al. (2011) (Cas_Csa4) pfam09702 1 Makarova et CRISPR CRISPR-associated protein 71.1% 0.72 al. (2011) (Cas_Csa5) pfam09701 1 Makarova et CRISPR CRISPR-associated protein 99.5% 0.69 al. (2011) (Cas_Cmr5) pfam09700 1 Makarova et CRISPR CRISPR-associated protein 98.2% 0.65 al. (2011) (Cas_Cmr3) pfam09670 1 Makarova et CRISPR CRISPR-associated protein 89.8% 0.76 al. (2011) (Cas_Cas02710) pfam09665 1 Makarova et RM Type II restriction 97.4% 0.18 al. (2011) endonuclease (RE_Alw26IDE) pfam09659 1 Makarova et CRISPR CRISPR-associated protein 78.8% 0.13 al. (2011) (Cas_Csm6) pfam09658 1 Makarova et CRISPR CRISPR-associated protein pfam < 20 pfam < 20 al. (2011) (Cas_Csx9) members members pfam09657 1 Makarova et CRISPR CRISPR-associated protein 99.2% 0.33 al. (2011) Csx8 (Cas_Csx8) pfam09652 1 Makarova et CRISPR Putative CRISPR-associated 94.5% 0.86 al. (2011) protein (Cas_VVA1548) pfam09651 1 Makarova et CRISPR CRISPR-associated protein 93.0% 0.76 al. (2011) (Cas_APE2256) pfam09623 1 Makarova et CRISPR CRISPR-associated protein 89.2% 0.79 al. (2011) NE0113 (Cas_NE0113) pfam09620 1 Makarova et CRISPR CRISPR-associated protein 91.4% 0.82 al. (2011) (Cas_c5x3) pfam09618 1 Makarova et CRISPR CRISPR-associated protein 98.3% 0.21 al. (2011) (Cas_Csy4) pfam09617 1 Makarova et CRISPR CRISPR-associated protein 95.9% 0.47 al. (2011) GSU0053 (Cas_GSU0053) pfam09615 1 Makarova et CRISPR CRISPR-associated protein 99.7% 0.21 al. (2011) (Cas_Csy3) pfam09614 1 Makarova et CRISPR CRISPR-associated protein 99.8% 0.19 al. (2011) (Cas_Csy2) pfam09611 1 Makarova et CRISPR CRISPR-associated protein 98.6% 0.17 al. (2011) (Cas_Csy1) pfam09609 1 Makarova et CRISPR CRISPR-associated protein, 95.0% 0.47 al. (2011) GSU0054 family (Cas_GSU0054) pfam09573 1 Makarova et RM TaqI restriction endonuclease 85.5% 0.51 al. (2011) pfam09572 1 Makarova et RM XamI restriction endonuclease 92.3% 0.36 al. (2011) pfam09571 1 Makarova et RM XcyI restriction endonuclease 91.0% 0.51 al. (2011) pfam09569 1 Makarova et RM ScaI restriction endonuclease 97.7% 0.33 al. (2011) pfam09568 1 Makarova et RM MjaI restriction endonuclease 85.0% 0.34 al. (2011) pfam09565 1 Makarova et RM NgoFVII restriction 95.1% 0.42 al. (2011) endonuclease pfam09563 1 Makarova et RM LlaJI restriction endonuclease 94.0% 0.45 al. (2011) pfam09559 1 Makarova et CRISPR Cas6 Crispr 80.0% 0.40 al. (2011) pfam09556 1 Makarova et RM HaeIII restriction 97.1% 0.34 al. (2011) endonuclease pfam09549 1 Makarova et RM Bpu10I restriction 96.1% 0.50 al. (2011) endonuclease pfam09530 1 Makarova et CRISPR CRISPR-associated protein pfam < 20 pfam < 20 al. (2011) (cas_TM1812) members members pfam09520 1 Makarova et RM MjaII restriction endonuclease 89.7% 0.41 al. (2011) pfam09517 1 Makarova et RM Eco29kI restriction 95.5% 0.32 al. (2011) endonuclease pfam09516 1 Makarova et RM CfrBI restriction 95.5% 0.16 al. (2011) endonuclease pfam09491 1 Makarova et RM AlwI restriction endonuclease 90.5% 0.28 al. (2011) pfam09485 1 Makarova et CRISPR CRISPR-associated protein 99.6% 0.16 al. (2011) Cse2 (CRISPR_cse2) pfam09484 1 Makarova et CRISPR CRISPR-associated protein 93.0% 0.51 al. (2011) TM1802 (cas_TM1802) pfam09481 1 Makarova et CRISPR CRISPR-associated protein 98.4% 0.17 al. (2011) Cse1 (CRISPR_cse1) pfam09455 1 Makarova et CRISPR CRISPR-associated (Cas) 91.5% 0.71 al. (2011) DxTHG family pfam09369 1 Makarova et new_RM Contains a number of Zn- 66.2% 0.26 al. (2011) binding domains; Domain of unknown function (DUF1998); DISARM system: DrmB pfam09344 1 Makarova et CRISPR CT1975-like protein 99.3% 0.17 al. (2011) pfam09233 1 Makarova et RM Restriction endonuclease 91.6% 0.39 al. (2011) EcoRV pfam09225 1 Makarova et RM Restriction endonuclease 99.5% 0.16 al. (2011) PvuII pfam09217 1 Makarova et RM Restriction endonuclease 98.0% 0.25 al. (2011) EcoRII, N-terminal pfam09208 1 Makarova et RM Restriction endonuclease 96.7% 0.69 al. (2011) MspI pfam09195 1 Makarova et RM Restriction endonuclease 69.2% 0.41 al. (2011) BglII pfam09194 1 Makarova et RM Restriction endonuclease 93.8% 0.50 al. (2011) BsobI pfam09019 1 Makarova et RM EcoRII C terminal 97.7% 0.17 al. (2011) pfam09002 1 Makarova et new_system COG1517 contains RecB 46.1% 0.50 al. (2011) family nuclease and wHTH; Domain of unknown function (DUF1887) pfam08972 1 Makarova et TA HicA; Domain of unknown 73.2% 0.47 al. (2011) function (DUF1902) pfam08849 1 Makarova et “new system”, Same as DUF3387; which is 95.2% 0.39 al. (2011), BREX fused to RM (GI: Goldfarb et 209527353); Putative inner al. (2015) membrane protein (DUF1819); pdb: 3BHW; BrxA-Unknown function pfam08843 1 Makarova et new_Abi Same as COG2253, AbiG; 70.1% 0.20 al. (2011) Domain of unknown function (DUF1814); Nucleotidyl transferase AbiEii toxin, Type IV TA system pfam08808 1 Makarova et TA RES domain 66.6% 0.14 al. (2011) pfam08798 1 Makarova et CRISPR CRISPR associated protein 98.6% 0.18 al. (2011) pfam08780 1 Makarova et TA HEPN; Nucleotidyltransferase 91.2% 0.32 al. (2011) substrate binding protein like pfam08747 1 Makarova et new_RM, Domain of unknown function 97.9% 0.45 al. (2011), BREX (DUF1788); BrxB-Unknown Goldfarb et function al. (2015) pfam08665 1 Makarova et “new system” PglZ domain, Alkaline 69.4% 0.45 al. (2011) phosphatase clan. BREX system: PglZ pfam08463 1 Makarova et RM EcoEI R protein C-terminal 97.3% 0.28 al. (2011) pfam07927 1 Makarova et TA toxin component, HicA 89.7% 0.24 al. (2011) family; YcfA-like protein; HicA toxin of bacterial toxin- antitoxin pfam07805 1 Makarova et TA HipA-like N-terminal domain 57.3% 0.24 al. (2011) pfam07804 1 Makarova et TA HipA-like C-terminal domain 56.2% 0.24 al. (2011) pfam07751 1 Makarova et Abi Abi-like protein 66.3% 0.17 al. (2011) pfam07669 1 Makarova et RM Eco57I restriction 74.2% 0.29 al. (2011) endonuclease pfam07215 1 Makarova et new_RM Protein of unknown function 88.1% 0.53 al. (2011) (DUF1419) linked to methylase COG0827 pfam06616 1 Makarova et RM BsuBI/PstI restriction 81.7% 0.34 al. (2011) endonuclease C-terminus pfam06414 1 Makarova et TA Zeta toxin 35.1% 0.27 al. (2011) pfam06296 1 Makarova et TA Toxin component, RelE 90.5% 0.13 al. (2011) family Protein of unknown function (DUF1044) pfam06114 1 Makarova et TA Same as COG2856; Domain 48.5% 0.16 al. (2011) of unknown function (DUF955) pfam05942 1 Makarova et TA Archaeal PaREP1/PaREP8 70.7% 0.34 al. (2011) family pfam05534 1 Makarova et TA HicB family 76.4% 0.21 al. (2011) pfam05016 1 Makarova et TA Plasmid stabilisation system 77.4% 0.18 al. (2011) protein; ParE toxin of type II toxin-antitoxin system, parDE pfam04851 1 Makarova et RM Type III restriction enzyme, 55.5% 0.16 al. (2011) res subunit pfam04556 1 Makarova et RM DpnII restriction 93.8% 0.19 al. (2011) endonuclease pfam04555 1 Makarova et RM Restriction endonuclease 90.0% 0.39 al. (2011) XhoI pfam04149 1 Makarova et TA DUF397, see our TA paper 51.5% 0.12 al. (2011) pfam04014 1 Makarova et TA SpoVT/AbrB like domain; 77.3% 0.16 al. (2011) Antidote-toxin recognition MazE, bacterial antitoxin pfam03787 1 Makarova et CRISPR RAMP superfamily 98.4% 0.44 al. (2011) pfam03681 1 Makarova et TA HicB family; Uncharacterized pfam < 20 pfam < 20 al. (2011) protein family (UPF0150) members members pfam03230 1 Makarova et RM Antirestriction protein 57.8% 0.14 al. (2011) pfam02963 1 Makarova et RM Restriction endonuclease 61.6% 0.40 al. (2011) EcoRI pfam02923 1 Makarova et RM Restriction endonuclease 97.4% 0.47 al. (2011) BamHI pfam02604 1 Makarova et TA Antitoxin Phd_Yet-M, type II 90.5% 0.13 al. (2011) toxin-antitoxin system pfam01930 1 Makarova et CRISPR Domain of unknown function 90.5% 0.37 al. (2011) DUF83 pfam01909 1 Makarova et TA Nucleotidyltransferase 47.6% 0.26 al. (2011) domain, COG1669 pfam01867 1 Makarova et CRISPR CRISPR associated protein 97.4% 0.26 al. (2011) Cas1 pfam01850 1 Makarova et TA PIN domain 76.0% 0.11 al. (2011) pfam01845 1 Makarova et TA CcdB protein 89.4% 0.15 al. (2011) pfam01420 1 Makarova et RM Type I restriction 91.8% 0.20 al. (2011) modification DNA specificity domain pfam14390 1 Ofir et al. DISARM- Putative PD-(D/E)XK family 98.9% 0.42 (2017) associated member, (DUF4420) pfam13659 1 Goldfarb et BREX, PglX-Adenine-specific 63.3% 0.21 al. (2015)², DISARM methylase; DrmMI- Ofir et al. Superfamily SSF5335 (S- (2017)³ adenosyl-L-methionine- dependent methyltransferases); Methyltransferase domain pfam13589 1 Ofir et al. DISARM- Histidine kinase-, DNA 33.5% 0.21 (2017) associated gyrase B-, and HSP90-like ATPase pfam13361 1 Ofir et al. DISARM- UvrD-like helicase C-terminal 50.2% 0.08 (2017) associated domain pfam13182 1 Goldfarb et BREX Protein of unknown function 94.9% 0.31 al. (2015) (DUF4007); BrxP- Phosphoadenosine phosphosulfate reductase pfam10923 1 Goldfarb et BREX BrxC/PglY, BrxD-ATP 93.1% 0.28 al. (2015) binding; P-loop Domain of unknown function (DUF2791) pfam04465 1 Goldfarb et BREX BrxC/PglY-ATP binding; 93.1% 0.50 al. (2015) Protein of unknown function (DUF499) pfam03852 1 Ofir et al. DISARM- DNA mismatch endonuclease 93.0% 0.18 (2017) associated Vsr pfam01555 1 Goldfarb et BREX DNA methylase; PglXI- 64.4% 0.20 al. (2015) Adenine-specific methylase pfam01507 1 Goldfarb et BREX Phosphoadenosine 62.9% 0.07 al. (2015) phosphosulfate reductase family; BrxP- Phosphoadenosine phosphosulfate reductase pfam00580 1 Ofir et al. DISARM- UvrD/REP helicase N- 47.4% 0.09 (2017) associated terminal domain pfam00271 1 Ofir et al. DISARM DrmA; Helicase conserved C- 39.0% 0.10 (2017) terminal domain pfam00176 1 Ofir et al. DISARM DrmD; SNF2 family N- 46.8% 0.23 (2017) terminal domain pfam00145 1 Ofir et al. DISARM DrmMII; C-5 cytosine- 72.5% 0.19 (2017) specific DNA methylase pfam00004 1 Ofir et al. DISARM- ATPase family associated 30.1% 0.07 (2017) associated with various cellular activities (AAA) COG5654 1 Makarova et TA Uncharacterized conserved al. (2011) protein COG5642 1 Makarova et TA Uncharacterized conserved al. (2011) protein COG4861 1 Makarova et Abi Uncharacterized protein al. (2011) conserved in bacteria COG5611 1 Makarova et TA PIN domain al. (2011) COG4849 1 Makarova et Abi Uncharacterized protein al. (2011) conserved in bacteria COG5606 1 Makarova et TA Uncharacterized conserved al. (2011) small protein COG4823 1 Makarova et Abi Abortive infection al. (2011) bacteriophage resistance protein COG5573 1 Makarova et TA Predicted nucleic-acid- al. (2011) binding protein, contains PIN domain COG4804 1 Makarova et new_system Predicted nuclease of al. (2011) restriction endonuclease-like fold COG5551 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG4748 1 Makarova et RM Uncharacterized conserved al. (2011) protein COG5519 1 Makarova et new_system Superfamily II helicase or al. (2011) inactivated derivatives, fused to primase COG4737 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG5499 1 Makarova et TA Predicted transcription al. (2011) regulator containing HTH domain COG4710 1 Makarova et TA Predicted DNA-binding al. (2011) protein with an HTH domain COG5464 1 Makarova et new_RM RecB-family nuclease domain al. (2011) (see TIGR01784), linked to COG1479 COG4694 1 Makarova et Abi Wobble nucleotide-excising al. (2011) tRNase COG5450 1 Makarova et TA Transcription regulator of the al. (2011) Arc/MetJ class COG4691 1 Makarova et TA Plasmid stability protein al. (2011) COG5340 1 Makarova et Abi Predicted transcriptional al. (2011) regulator COG4683 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG5304 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG4680 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG5302 1 Makarova et TA Post-segregation antitoxin al. (2011) (ccd killing mechanism protein) encoded by the F plasmid COG4679 1 Makarova et TA Phage-related protein al. (2011) COG4951 1 Makarova et RM Uncharacterized protein al. (2011) conserved in bacteria COG4646 1 Makarova et new_system DNA methylase, see al. (2011) COG0553 COG4914 1 Makarova et Abi Predicted al. (2011) nucleotidyltransferase COG4636 1 Makarova et TA Endonuclease, Uma2 family al. (2011) (restriction endonuclease fold) COG4889 1 Makarova et RM Predicted helicase al. (2011) COG4634 1 Makarova et TA PIN family nuclease, potential al. (2011) toxin-antitoxin system component COG4456 1 Makarova et TA Virulence-associated protein al. (2011) or related protein COG4453 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG4423 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG4374 1 Makarova et TA PIN domain nuclease, a al. (2011) component of toxin-antitoxin system (PIN domain) COG4343 1 Makarova et CRISPR CRISPR-associated protein, al. (2011) RecB family exonuclease COG4268 1 Makarova et RM McrBC 5-methylcytosine al. (2011) restriction system component COG4227 1 Makarova et new_system Antirestriction protein al. (2011) COG4226 1 Makarova et TA Predicted nuclease of the al. (2011) RNAse H fold, HicB family COG4127 1 Makarova et new_RM Mrr restriction endonuclease al. (2011) domain COG4118 1 Makarova et TA Antitoxin (DNA binding al. (2011) domain) of toxin-antitoxin stability system COG4115 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG4113 1 Makarova et TA Predicted nucleic acid-binding al. (2011) protein, contains PIN domain COG4096 1 Makarova et RM Type I site-specific al. (2011) restriction-modification system, R (restriction) subunit or related helicase COG4006 1 Makarova et CRISPR Uncharacterized protein al. (2011) conserved in archaea COG3950 1 Makarova et new_system Predicted ATP-binding al. (2011) protein involved in virulence COG3943 1 Makarova et new_TA Virulence protein al. (2011) COG3905 1 Makarova et TA Predicted transcriptional al. (2011) regulator COG3886 1 Makarova et RM Predicted HKD family al. (2011) nuclease; type III restriction protein res subunit COG3832 1 Makarova et TA Uncharacterized conserved al. (2011) protein COG3744 1 Makarova et TA PIN domain nuclease, a al. (2011) component of toxin-antitoxin system (PIN domain) COG3742 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG3692 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG3668 1 Makarova et TA Plasmid stabilization system al. (2011) protein COG3657 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG3654 1 Makarova et TA Prophage maintenance system al. (2011) killer protein COG3649 1 Makarova et CRISPR CRISPR system related al. (2011) protein COG3636 1 Makarova et TA Predicted transcriptional al. (2011) regulator COG3609 1 Makarova et TA Predicted transcriptional al. (2011) regulators containing the CopG/Arc/MetJ DNA-binding domain COG3598 1 Makarova et new_system RecA-family ATPase, fused al. (2011) to TOPRIM COG3587 1 Makarova et RM Restriction endonuclease al. (2011) COG3586 1 Makarova et new_system Some protein fused to al. (2011) domains similar to N terminal regions found in type I restriction enzyme R (HSDR) proteins and RloF (gi: 93006430) COG3550 1 Makarova et TA Toxin module HipA, protein al. (2011) kinase of phosphatidylinositol 3/4-kinase superfamily COG3549 1 Makarova et TA Plasmid maintenance system al. (2011) killer protein COG3514 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG3513 1 Makarova et CRISPR Predicted CRISPR-associated al. (2011) nuclease, contains McrA/HNH-nuclease and RuvC-like nuclease domain COG3512 1 Makarova et CRISPR CRISPR-associated protein, al. (2011) Cas2 homolog COG3472 1 Makarova et new_system Uncharacterized; often fused al. (2011) to COG1479 COG3440 1 Makarova et RM Predicted restriction al. (2011) endonuclease COG3410 1 Makarova et Abi Uncharacterized conserved al. (2011) protein COG3392 1 Makarova et RM Adenine-specific DNA al. (2011) methylase COG3372 1 Makarova et new_RM Predicted nuclease of al. (2011) restriction endonuclease-like fold; associated with COG1061 (RM) COG3344 1 Makarova et Abi Retron-type reverse al. (2011) transcriptase COG3337 1 Makarova et CRISPR CRISPR system related al. (2011) protein COG3311 1 Makarova et TA HTH_MerR_SF al. (2011) COG3183 1 Makarova et RM Predicted restriction al. (2011) endonuclease COG3177 1 Makarova et TA Fic family protein al. (2011) COG3093 1 Makarova et TA Plasmid maintenance system al. (2011) antidote protein COG3077 1 Makarova et TA DNA-damage-inducible al. (2011) protein J COG3041 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG2944 1 Makarova et TA Predicted transcriptional al. (2011) regulator COG2929 1 Makarova et TA Uncharacterized protein al. (2011) conserved in bacteria COG2886 1 Makarova et TA Uncharacterized small protein al. (2011) COG2880 1 Makarova et TA Uncharacterized protein al. (2011) conserved in archaea COG2865 1 Makarova et new_system Predicted transcriptional al. (2011) regulator containing an HTH domain and diverged ATP- binding domain (Schlafen- like) COG2856 1 Makarova et TA Predicted Zn peptidase al. (2011) COG2852 1 Makarova et RM Very-short-patch-repair al. (2011) endonuclease COG2810 1 Makarova et RM Predicted type IV restriction al. (2011) endonuclease COG2521 1 Makarova et new_RM Predicted archaeal al. (2011) methyltransferase COG2445 1 Makarova et TA Uncharacterized conserved al. (2011) protein COG2442 1 Makarova et TA Uncharacterized conserved al. (2011) protein COG2405 1 Makarova et TA Predicted nucleic acid-binding al. (2011) protein, contains PIN domain COG2402 1 Makarova et TA Predicted nucleic acid-binding al. (2011) protein, contains PIN domain COG2361 1 Makarova et TA Uncharacterized conserved al. (2011) protein COG2337 1 Makarova et TA Toxin-antitoxin addiction al. (2011) module toxin component MazF (an endoRNAse) COG2336 1 Makarova et TA Toxin-antitoxin addiction al. (2011) module antitoxin component MazE COG2254 1 Makarova et CRISPR Predicted HD superfamily al. (2011) hydrolase, possibly a nuclease COG2253 1 Makarova et Abi Uncharacterized conserved al. (2011) protein COG2250 1 Makarova et TA HEPN domain al. (2011) COG2189 1 Makarova et RM Adenine specific DNA al. (2011) methylase Mod COG2184 1 Makarova et TA Protein involved in cell al. (2011) division COG2161 1 Makarova et TA Antitoxin (DNA-binding al. (2011) domain) of toxin-antitoxin stability system COG2026 1 Makarova et TA Cytotoxic translational al. (2011) repressor of toxin-antitoxin stability system COG2002 1 Makarova et TA Transcriptional regulator al. (2011) AbrB COG1895 1 Makarova et TA Uncharacterized conserved al. (2011) protein related to C-terminal domain of eukaryotic chaperone, SACSIN COG1857 1 Makarova et CRISPR CRISPR system related al. (2011) protein COG1848 1 Makarova et TA Predicted nucleic acid-binding al. (2011) protein, contains PIN domain COG1787 1 Makarova et RM Endonuclease, HJR/Mrr/RecB al. (2011) family COG1769 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1753 1 Makarova et TA Predicted antitoxin, copG al. (2011) family COG1743 1 Makarova et RM, BREX Adenine-specific DNA al. (2011), methylase containing a Zn- Goldfarb et ribbon; PglXI-Adenine- al. (2015) specific methylase COG1724 1 Makarova et TA Predicted RNA binding al. (2011) protein (dsRBD-like fold), HicA family COG1715 1 Makarova et RM Restriction endonuclease al. (2011) COG1708 1 Makarova et TA Predicted al. (2011) nucleotidyltransferase COG1700 1 Makarova et new_RM Contains PD_(D/E)xK al. (2011) nuclease odmain, DUF524 COG1688 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1669 1 Makarova et TA Nucleotidyltransferase al. (2011) COG1604 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1598 1 Makarova et TA Predicted nuclease of the al. (2011) RNAse H fold, HicB family COG1583 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1569 1 Makarova et TA Predicted nucleic acid-binding al. (2011) protein, contains PIN domain COG1567 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1518 1 Makarova et CRISPR CRISPR-associated protein al. (2011) Cas1 COG1517 1 Makarova et CRISPR CRISPR system related al. (2011) protein COG1487 1 Makarova et TA Predicted nucleic acid-binding al. (2011) protein, contains PIN domain COG1479 1 Makarova et new_system RloF-like, possible RM al. (2011) component (contains HNH- type nuclease domain) COG1476 1 Makarova et TA Predicted transcriptional al. (2011) regulator, xre family COG1475 1 Makarova et new_system Stage 0 sporulation protein J al. (2011) (antagonist of Soj); contains ParB-like nuclease domain COG1468 1 Makarova et CRISPR CRISPR-associated protein al. (2011) Cas4 (RecB family exonuclease) COG1431 1 Makarova et pAgo Argonaute homolog, al. (2011) implicated in RNA metabolism COG1421 1 Makarova et CRISPR CRISPR system related al. (2011) protein COG1403 1 Makarova et RM Restriction endonuclease, al. (2011) McrA/HNH family COG1401 1 Makarova et RM GTPase subunit of restriction al. (2011) endonuclease COG1396 1 Makarova et TA Predicted transcriptional al. (2011) regulator, xre family COG1367 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1353 1 Makarova et CRISPR Predicted CRISPR-associated al. (2011) polymerase COG1343 1 Makarova et CRISPR CRISPR-associated protein al. (2011) Cas2 COG1337 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1336 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1332 1 Makarova et CRISPR CRISPR system related al. (2011) protein, RAMP superfamily COG1203 1 Makarova et CRISPR CRISPR-associated helicase al. (2011) Cas3 COG1112 1 Makarova et new_system Superfamily I DNA/RNA al. (2011) helicase COG1106 1 Makarova et Abi Predicted ATPase al. (2011) COG1061 1 Makarova et RM DNA or RNA helicase of al. (2011) superfamily II COG1002 1 Makarova et RM, BREX Type II restriction enzyme, al. (2011), methylase subunit; PglX- Goldfarb et Adenine-specific methylase al. (2015) COG0864 1 Makarova et TA Transcriptional regulator, al. (2011) CopG/Arc/MetJ family (DNA-binding and a metal- binding domains) COG0863 1 Makarova et RM, BREX DNA modification methylase; al. (2011), PglXI-Adenine-specific Goldfarb et methylase al. (2015) COG0827 1 Makarova et RM Adenine-specific DNA al. (2011) methylase COG0732 1 Makarova et RM Restriction endonuclease S al. (2011) subunit COG0640 1 Makarova et TA Transcriptional regulator al. (2011) containing HTH domain, ArsR family COG0610 1 Makarova et RM Type I site-specific al. (2011) restriction-modification system, R (restriction) subunit or related helicase COG0338 1 Makarova et RM Site-specific DNA methylase al. (2011) COG0286 1 Makarova et RM, BREX Type I restriction- al. (2011), modification system Goldfarb et methyltransferase subunit; al. (2015) PglX-Adenine-specific methylase COG0270 1 Makarova et RM, Dcm, Site-specific DNA- al. (2011), DISARM cytosine methylase; DrmMII Ofir et al. (2017) COG4930 1 Goldfarb et BREX BrxL-Lon-like protease al. (2015) COG3655 1 Ofir et al. DISARM- DNA-binding transcriptional (2017) associated regulator, XRE family COG1404 1 Ofir et al. DISARM- Serine protease, subtilisin (2017) associated family COG1205 1 Ofir et al. DISARM- ATP-dependent helicase (2017) associated YprA, contains C-terminal metal-binding DUF1998 domain COG1201 1 Goldfarb et BREX BrxHI-Lhr-like helicase al. (2015) COG0553 1 Goldfarb et BREX, BrxHII-DNA/RNA al. (2015), DISARM helicases; DrmD; HepA, Ofir et al. Superfamily II DNA or RNA (2017) helicase, SNF2 family COG0515 1 Goldfarb et BREX PglW-Serine/threonine al. (2015) protein kinase COG0210 1 Ofir et al. DISARM- UvrD, Superfamily I DNA or (2017) associated RNA helicase COG0175 1 Goldfarb et BREX BrxP-Phosphoadenosine al. (2015) phosphosulfate reductase pfam13091 2 Ofir et al. DISARM DrmC; PLD-like domain 44.2% 0.14 (2017) pfam01881 2 known CRISPR CRISPR associated protein 92.3% 0.44 system Cas6 found in round 1 pfam01905 2 known CRISPR CRISPR-associated negative 99.3% 0.41 system auto-regulator DevR/Csa2 found in round 1 pfam01954 2 known TA Protein of unknown function 89.8% 0.59 system DUF104. Probably a new found in antitoxin; the associated gene round 1 is a PIN-domain protein, known toxin pfam02697 2 known TA Uncharacterized ACR, 89.6% 0.42 system COG1753 found in round 1 pfam02980 2 known RM Restriction endonuclease 74.4% 0.63 system FokI, catalytic domain found in round 1 pfam02981 2 known RM Restriction endonuclease 75.0% 0.64 system FokI, recognition domain found in round 1 pfam03235 2 known RM Protein of unknown function 78.8% 0.38 system DUF262 found in round 1, putative system found in round 1 pfam03683 2 known TA predicted 88.3% 0.54 system found in round 1 pfam03693 2 known TA Bacterial antitoxin of ParD 88.1% 0.19 system toxin-antitoxin type II system found in and RHH round 1 pfam03750 2 known CRISPR Protein of unknown function 99.9% 0.26 system (DUF310) found in round 1 pfam04255 2 known TA Protein of unknown function 69.0% 0.36 system (DUF433) found in round 1 pfam04365 2 known TA Ribonuclease toxin, BmT, of 91.1% 0.33 system type II toxin-antitoxin system found in round 1 pfam04411 2 known RM PD-(D/E)XK nuclease 84.0% 0.57 system superfamily found in round 1 pfam05015 2 known TA HigAB; RelE-like toxin of 96.9% 0.26 system type II toxin-antitoxin system found in HigB round 1 pfam05107 2 known CRISPR CRISPR-associated protein 98.5% 0.41 system Cas7 found in round 1 pfam05168 2 known TA HEPN domain 84.9% 0.36 system found in round 1 pfam05315 2 known RM ICEA Protein 98.7% 0.17 system found in round 1 pfam06023 2 known CRISPR Archaeal protein of unknown 93.9% 0.71 system function (DUF911) found in round 1 pfam06154 2 known TA CbeA_antitoxin, type IV, 97.2% 0.11 system cytoskeleton bundling- found in enhancing factor A round 1 pfam06300 2 known RM Tsp45I type II restriction 97.1% 0.33 system enzyme found in round 1 pfam06634 2 known RM, System Protein of unknown function 95.5% 0.66 system around (DUF1156) found in anchors round 1, pfam06634, putative COG1483, system pfam12635 found in round 1 pfam06755 2 known TA CbtA_toxin of type IV toxin- 96.6% 0.12 system antitoxin system found in round 1 pfam07362 2 known TA Post-segregation antitoxin 94.5% 0.15 system CcdA found in round 1 pfam07510 2 known RM Protein of unknown function 72.8% 0.29 system (DUF1524) found in round 1, putative system found in round 1 pfam07704 2 known TA Rv0623-like transcription 99.3% 0.05 system factor found in round 1 pfam07832 2 known RM Cfr10I/Bse634I restriction 100.0% 0.57 system endonuclease found in round 1 pfam08870 2 known DND Domain of unknown function 96.1% 0.52 system (DUF1832) found in round 1 pfam08998 2 known TA Bacterial epsilon antitoxin 92.0% 0.22 system found in round 1 pfam09015 2 known RM NgoMIV restriction enzyme 98.1% 0.34 system found in round 1 pfam09126 2 known RM Restriction endonuclease NaeI 95.9% 0.50 system found in round 1 pfam09226 2 known RM Restriction endonuclease 97.1% 0.47 system HincII found in round 1 pfam09254 2 known RM Restriction endonuclease 78.3% 0.73 system FokI, C terminal found in round 1 pfam09386 2 known TA Antitoxin ParD 92.1% 0.58 system found in round 1 pfam09499 2 known RM ApaLI-like restriction 99.1% 0.10 system endonuclease found in round 1 pfam09518 2 known RM HindIII restriction 84.8% 0.46 system endonuclease found in round 1 pfam09519 2 known RM Hind VP restriction 93.8% 0.56 system endonuclease found in round 1 pfam09521 2 known RM NgoPII restriction 96.4% 0.18 system endonuclease found in round 1 pfam09545 2 known RM AccI restriction endonuclease 95.2% 0.68 system found in round 1 pfam09553 2 known RM Eco47II restriction 97.6% 0.36 system endonuclease found in round 1 pfam09554 2 known RM HaeII restriction endonuclease 97.5% 0.33 system found in round 1 pfam09561 2 known RM HpaII restriction 82.0% 0.33 system endonuclease found in round 1 pfam09564 2 known RM NgoBV restriction 99.6% 0.13 system endonuclease found in round 1 pfam09566 2 known RM SacI restriction endonuclease 95.8% 0.41 system found in round 1 pfam09570 2 known RM SinI restriction endonuclease 95.1% 0.49 system found in round 1 pfam09711 2 known CRISPR CRISPR-associated protein 98.9% 0.15 system (Cas_Csn2) found in round 1 pfam09722 2 known TA Protein of unknown function 92.7% 0.16 system (DUF2384) found in round 1 pfam09907 2 known TA HigAB 97.8% 0.18 system found in round 1 pfam09946 2 known TA predicted 97.9% 0.16 system found in round 1 pfam09952 2 known TA putative toxin has a 94.2% 0.13 system nucleotidyl transferase found in domain round 1 pfam10117 2 known RM McrBC 5-methylcytosine 75.9% 0.40 system restriction system component found in round 1 pfam10884 2 known TA Protein of unknown function 80.7% 0.44 system (DUF2683) found in round 1 pfam10959 2 known TA Protein of unknown function 91.3% 0.33 system (DUF2761) found in round 1 pfam11463 2 known RM R.HinP1I restriction 90.9% 0.36 system endonuclease found in round 1 pfam11564 2 known RM Restriction endonuclease 100.0% 0.58 system BpuJI-N terminal found in round 1 pfam11848 2 known TA contains PIN domain. Two 95.9% 0.54 system small proteins found in round 1 pfam11867 2 known RM Domain of unknown function 86.9% 0.37 system (DUF3387) found in round 1 pfam12102 2 known RM Domain of unknown function 46.0% 0.23 system (DUF3578) found in round 1 pfam12441 2 known TA CopG antitoxin of type II 89.9% 0.46 system toxin-antitoxin system found in round 1 pfam12469 2 known CRISPR CRISPR-associated protein 98.2% 0.70 system found in round 1 pfam12564 2 known RM Type III 95.3% 0.25 system restriction/modification found in enzyme methylation subunit round 1 pfam12676 2 known TA Protein of unknown function 96.5% 0.08 system (DUF3796) found in round 1 pfam13156 2 known RM maybe a type IIG gene; 82.5% 0.19 system Restriction endonuclease found in round 1 pfam13337 2 known BREX Putative ATP-dependent Lon 91.8% 0.56 system protease found in round 1 pfam13391 2 known RM HNH_2, HNH endonuclease 75.3% 0.36 system found in round 1 pfam13395 2 known CRISPR HNH endonuclease 85.4% 0.34 system found in round 1 pfam13643 2 known RM Domain of unknown function 70.9% 0.44 system (DUF4145) found in round 1 pfam13957 2 known TA Toxin YafO, type II toxin- 79.6% 0.11 system antitoxin system found in round 1 pfam14072 2 known DND DndB, DNA-sulfur 86.1% 0.44 system modification-associated found in round 1 pfam14076 2 known TA Domain of unknown function 78.5% 0.38 system (DUF4258) found in round 1 pfam14335 2 known RM Domain of unknown function 92.8% 0.54 system (DUF4391) found in round 1 pfam14338 2 known RM Mrr N-terminal domain 87.8% 0.27 system found in round 1 pfam14350 2 known TA Nearby gene is HigA 71.2% 0.39 system antitoxin found in round 1 pfam14355 2 known Abi Abortive infection C-terminus 73.1% 0.41 system found in round 1 pfam14367 2 known TA Domain of unknown function 98.0% 0.17 system (DUF4411) found in round 1 pfam14384 2 known TA BrnA antitoxin of type II 88.9% 0.26 system toxin-antitoxin system found in round 1 pfam14487 2 known TA pmen type TA system 88.7% 0.22 system found in round 1 pfam14511 2 known RM Type II restriction 95.1% 0.42 system endonuclease EcoO109I found in round 1 pfam14809 2 known tgtA C1 domain of tRNA-guanine 81.1% 0.57 system (deazaguanine transglycosylase dimerisation found in tRNA round 1 modification) pfam15514 2 known RM Restriction endonuclease ThaI 95.1% 0.33 system found in round 1 pfam15515 2 known RM MvaI/BcnI restriction 95.0% 0.44 system endonuclease family found in round 1 pfam15723 2 known TA Motility quorum-sensing 81.1% 0.19 system regulator, toxin of MqsA found in round 1 pfam15738 2 known TA Bacterial toxin of type II 87.0% 0.22 system toxin-antitoxin system, YafQ found in round 1 pfam16277 2 known TA Domain of unknown function 87.5% 0.22 system (DUF4926) found in round 1 pfam16565 2 known BREX Lon Protease; Phospholipase 85.5% 0.74 system D-like domain at C-terminus found in of MIT round 1 pfam16592 2 known CRISPR REC lobe of CRISPR- 98.0% 0.17 system associated endonuclease Cas9 found in round 1 pfam16593 2 known CRISPR Bridge helix of CRISPR- 97.8% 0.14 system associated endonuclease Cas9 found in round 1 pfam16595 2 known CRISPR PAM-interacting domain of 99.4% 0.14 system CRISPR-associated found in endonuclease Cas9 round 1 pfam16762 2 known TA PIN domain; Ribbon-helix- 96.6% 0.38 system helix domain found in round 1 pfam16813 2 known CRISPR CRISPR-associated protein 98.8% 0.28 system Csn2 subfamily St found in round 1 pfam16902 2 known RM FokI; Type-2 restriction 73.5% 0.62 system enzyme D3 domain found in round 1 pfam16948 2 known TA HipAB; Cell translocating 73.9% 0.56 system kinase A N-terminus found in round 1 pfam02384 2 known RM N-6 DNA Methylase 79.5% 0.31 system found in round 1 pfam01541 2 putative single-gene GIY-YIG catalytic domain 38.0% 0.12 system “system” of found in pfam14267 round 1 pfam01618 2 putative Zorya ZorA; MotA/TolQ/ExbB 66.5% 0.06 system proton channel family found in round 1 pfam01863 2 putative single-gene Protein of unknown function 62.3% 0.18 system “system” of DUF45 found in COG1451 round 1 pfam00691 2 putative Zorya ZorB; OmpA family 60.7% 0.06 system found in round 1 pfam03174 2 putative System Chitobiase/beta- 41.9% 0.24 system around hexosaminidase C-terminal found in anchors domain round 1 pfam06634, COG1483, pfam12635 pfam04383 2 putative single-gene KilA-N domain 43.1% 0.31 system “system” of found in pfam04383 round 1 pfam04471 2 putative Zorya ZorD (in some cases); 66.7% 0.31 system Restriction endonuclease found in round 1 pfam06250 2 putative single-gene Protein of unknown function 55.6% 0.42 system “system”of (DUF1016) found in COG4804 round 1 pfam08878 2 putative Hachiman HamA; Domain of unknown 89.5% 0.48 system function (DUF1837) found in round 1 pfam09414 2 putative System RNA ligase 34.5% 0.39 system around anchor found in pfam12476 round 1 pfam09983 2 putative Wadjet JetD; Uncharacterized protein 87.5% 0.45 system conserved in bacteria C- found in term(DUF2220) round 1 pfam10088 2 putative Lamassu LmuB; Uncharacterized 57.3% 0.52 system protein conserved in bacteria found in (DUF2326) round 1 pfam11795 2 putative Wadjet JetD; Uncharacterized protein 95.3% 0.40 system conserved in bacteria N-term found in (DUF3322) round 1 pfam11855 2 putative Wadjet JetA; Protein of unknown 97.6% 0.31 system function (DUF3375) found in round 1 pfam12476 2 putative System Protein of unknown function 89.0% 0.45 system around anchor (DUF3696) found in pfam12476 round 1 pfam12635 2 putative System Protein of unknown function 98.8% 0.69 system around (DUF3780) found in anchors round 1 pfam06634, COG1483, pfam12635 pfam13020 2 putative System Domain of unknown function 52.6% 0.41 system around (DUF3883) found in anchors round 1 pfam06634, COG1483 pfam13175 2 putative Septu + System PtuA; AAA ATPase domain 73.9% 0.37 system around anchor found in pfam12476 round 1 pfam13208 2 putative System TerB N-terminal domain 89.6% 0.29 system around anchor found in pfam13208 round 1 pfam13304 2 putative Septu + System PtuA; AAA domain, putative 63.8% 0.33 system around anchor AbiEii toxin, Type IV TA found in pfam12476 system round 1 pfam13476 2 putative Septu PtuA; AAA domain 47.1% 0.24 system found in round 1 pfam13677 2 putative Zorya ZorB; Membrane MotB of 92.5% 0.04 system proton-channel complex found in MotA/MotB round 1 pfam13835 2 putative Wadjet JetB; Domain of unknown 98.0% 0.32 system function (DUF4194) found in round 1 pfam13910 2 putative single-gene Domain of unknown function 69.0% 0.34 system “system” of (DUF4209) found in pfam13910 round 1 pfam14130 2 putative Lamassu LmuA; Domain of unknown 74.8% 0.45 system function (DUF4297) found in round 1 pfam14267 2 putative single-gene Domain of unknown function 78.8% 0.60 system “system” of (DUF4357) found in pfam14267 round 1 pfam14491 2 putative Septu- Protein of unknown function 92.4% 0.29 system associated (DUF4435) found in round 1 pfam15611 2 putative Zorya ZorC; EH_Signature domain 98.3% 0.55 system found in round 1 pfam15615 2 putative System TerB-C domain 92.1% 0.29 system around anchor found in pfam13208 round 1 pfam13280 2 putative System exists in subtypes; WYL 57.6% 0.19 system around domain found in anchors round 1 pfam06634, COG1483 COG1483 2 known RM, System Predicted ATPase, AAA + system around superfamily found in anchors round 1, pfam06634, putative COG1483, system pfam12635 found in round 1 COG0419 2 putative Lamassu LmuB; SbcC, DNA repair system exonuclease SbcCD ATPase found in subunit round 1 COG3727 2 known RM Vsr accompanying C system methylase, auxilary to RM; found in G:T-mismatch repair DNA round 1 endonuclease, very short patch repair protein COG0840 2 putative Zorya ZorA; Methyl-accepting system chemotaxis protein found in round 1 COG1196 2 putative Lamassu LmuB; Smc, Chromosome system segregation ATPase found in round 1 COG1204 2 putative Lamassu- Replicative superfamily II system associated helicase found in round 1 COG1360 2 putative Zorya ZorB; Flagellar motor protein system MotB found in round 1 COG1451 2 putative single-gene Predicted metal-dependent system “system” of hydrolase found in COG1451 round 1 COG2378 2 putative System Predicted DNA-binding system around transcriptional regulator found in anchors YafY, contains an HTH and round 1 pfam06634, WYL domains COG1483 COG2885 2 putative Zorya ZorB; Outer membrane system protein OmpA and related found in peptidoglycan-associated round 1 (lipo)proteins COG4913 2 putative Wadjet JetC; Uncharacterized protein, system contains a C-terminal ATPase found in domain round 1 COG4924 2 putative Wadjet JetD; Uncharacterized protein system found in round 1 COG4938 2 putative System Predicted ATPase system around anchor found in pfam12476 round 1 COG5293 2 putative Lamassu LmuB; Uncharacterized system protein YydD, contains found in DUF2326 domain round 1 (pfam10088) ¹Makarova et al. J Bacteriol. 2011 November; 193(21): 6039-6056 ²Goldfarb T, et al. (2015) BREX is a novel phage resistance system widespread in microbial genomes. EMBO J. EMBO Press; 34: 169-83 ³Submitted

Identification of Pfams Enriched Near Defense Genes:

The genome sequences, gene annotations and taxonomy annotations of all publicly available sequenced bacterial and archaeal genomes were downloaded from the NCBI FTP site (ftp.ncbi.nih.gov/genomes/genbank/bacteria/ and ftp.ncbi.nih.gov/genomes/genbank/archaea/, respectively) on April 2016. pfam annotations for bacterial and archaeal genes were obtained from the Integrated Microbial Genomes (IMG) database (Markowitz V M, et al. (2012) IMG: the Integrated Microbial Genomes database and comparative analysis system. nucleic Acids Res. Oxford University Press; 40: D115-22) on December 2015, and cross-referenced to the genes in the genomes downloaded from NCBI using the locus_tag Genbank field. All pfams annotated in at least 20 genes (“members”) across the analyzed genomes (14,083 pfams) were scanned. For each pfam, the number of member genes for which a gene having an annotation of a known defense gene family (Table 1) was present in proximity (up to ten genes upstream and ten genes downstream) was recorded. The fraction of defense-associated members out of total members (“defense score”) was calculated per pfam. A second score (“defense context variability score”) was calculated for each pfam as follows: for each member gene occurring with at least one defense gene in proximity, a list of the proximal defense genes was recorded, and the fraction of unique lists out of total number of lists for that pfam represents the score (for example: if pfamX is found within 20 genes in our set, with 15 of them having Cas9 nearby and 5 having type I R-M nearby, the number of unique lists is 2, and the “defense context variability score” is 2/20=0.1). Pfams with defense score >=65% and defense context variability score >=0.1 were taken for further analysis. This list was supplemented with 35 non-pfam gene families that were predicted to be associated with defense by Makarova et al. (2011) ibid, as well as 23 pfams that were predicted in the same study but did not pass the thresholds above (Table 2).

TABLE 2 Scanned Families Defense Variability Family score score Family source Classification pfam10802 65.4% 0.82 Prediction cycle 1 Likely mobilome pfam10657 96.4% 0.15 Prediction cycle 1 Likely non-defense function pfam09226 94.3% 0.30 Prediction cycle 1 Known system pfam14809 70.3% 0.58 Prediction cycle 1 Likely known system pfam11572 92.1% 0.23 Prediction cycle 1 Likely non-defense function pfam14455 67.4% 0.79 Prediction cycle 1 Likely mobilome pfam07832 100.0% 0.53 Prediction cycle 1 Known system pfam10959 84.8% 0.31 Prediction cycle 1 Likely known system pfam04033 85.7% 0.77 Prediction cycle 1 Possibly belongs to a new defense system pfam09629 70.9% 0.26 Prediction cycle 1 Likely mobilome pfam01304 74.6% 0.41 Prediction cycle 1 Likely non-defense function pfam11536 75.0% 0.60 Prediction cycle 1 Possibly belongs to a new defense system pfam09545 80.6% 0.70 Prediction cycle 1 Known system pfam11564 100.0% 0.48 Prediction cycle 1 Known system pfam09566 95.8% 0.38 Prediction cycle 1 Known system pfam16902 69.9% 0.45 Prediction cycle 1 Known system pfam12942 78.2% 0.13 Prediction cycle 1 Likely non-defense function pfam02981 71.6% 0.46 Prediction cycle 1 Known system pfam16992 86.5% 0.18 Prediction cycle 1 Likely non-defense function pfam02980 71.1% 0.44 Prediction cycle 1 Known system pfam12962 67.0% 0.34 Prediction cycle 1 Likely mobilome pfam09518 76.8% 0.43 Prediction cycle 1 Known system pfam10473 78.3% 0.18 Prediction cycle 1 Likely mobilome pfam14466 84.6% 0.28 Prediction cycle 1 Likely mobilome pfam14456 78.3% 0.34 Prediction cycle 1 Likely mobilome pfam10876 66.7% 0.40 Prediction cycle 1 Likely mobilome pfam09543 67.9% 0.24 Prediction cycle 1 Likely non-defense function pfam09254 76.1% 0.58 Prediction cycle 1 Known system pfam09973 65.5% 0.23 Prediction cycle 1 Likely non-defense function pfam09570 92.3% 0.42 Prediction cycle 1 Known system pfam15514 95.1% 0.29 Prediction cycle 1 Known system pfam08078 66.7% 0.36 Prediction cycle 1 Likely non-defense function pfam09519 93.2% 0.45 Prediction cycle 1 Known system pfam09554 97.5% 0.29 Prediction cycle 1 Known system pfam11428 67.7% 0.13 Prediction cycle 1 Likely non-defense function pfam16813 98.8% 0.20 Prediction cycle 1 Known system pfam09895 71.4% 0.18 Prediction cycle 1 Likely non-defense function pfam11463 88.2% 0.26 Prediction cycle 1 Known system pfam09436 84.7% 0.28 Prediction cycle 1 Likely mobilome pfam10884 75.6% 0.40 Prediction cycle 1 Known system pfam10907 85.1% 0.15 Prediction cycle 1 Likely mobilome pfam12963 67.1% 0.32 Prediction cycle 1 Likely mobilome pfam16827 81.6% 0.37 Prediction cycle 1 Likely non-defense function pfam09871 66.0% 0.16 Prediction cycle 1 Likely non-defense function pfam12635 94.7% 0.55 Prediction cycle 1 Possibly belongs to a new defense system pfam09126 95.5% 0.40 Prediction cycle 1 Known system pfam06023 93.9% 0.69 Prediction cycle 1 Known system pfam11645 67.2% 0.21 Prediction cycle 1 Likely non-defense function pfam12959 87.7% 0.48 Prediction cycle 1 Likely mobilome pfam06300 95.0% 0.26 Prediction cycle 1 Known system pfam16948 68.6% 0.49 Prediction cycle 1 Known system pfam09386 91.1% 0.52 Prediction cycle 1 Known system pfam09466 89.4% 0.23 Prediction cycle 1 Likely mobilome pfam16468 92.3% 0.28 Prediction cycle 1 Likely mobilome pfam09015 98.1% 0.29 Prediction cycle 1 Known system pfam09544 81.4% 0.19 Prediction cycle 1 Possibly belongs to a new defense system pfam05315 98.1% 0.13 Prediction cycle 1 Known system pfam11426 66.1% 0.36 Prediction cycle 1 Likely mobilome pfam09553 97.3% 0.29 Prediction cycle 1 Known system pfam14462 81.4% 0.53 Prediction cycle 1 Likely non-defense function pfam12960 90.8% 0.46 Prediction cycle 1 Likely mobilome pfam12997 80.4% 0.17 Prediction cycle 1 Likely non-defense function pfam09521 95.3% 0.15 Prediction cycle 1 Known system pfam07015 69.5% 0.61 Prediction cycle 1 Likely mobilome pfam14457 71.2% 0.51 Prediction cycle 1 Likely mobilome pfam08998 91.0% 0.19 Prediction cycle 1 Known system pfam14511 93.2% 0.34 Prediction cycle 1 Known system pfam09946 97.7% 0.12 Prediction cycle 1 Likely known system pfam10398 93.2% 0.26 Prediction cycle 1 Likely non-defense function pfam16762 96.4% 0.33 Prediction cycle 1 Known system pfam03513 68.1% 0.29 Prediction cycle 1 Likely non-defense function pfam07820 68.8% 0.41 Prediction cycle 1 Likely mobilome pfam11320 69.8% 0.27 Prediction cycle 1 Likely non-defense function pfam16565 81.7% 0.61 Prediction cycle 1 Known system pfam11341 67.9% 0.27 Prediction cycle 1 Likely non-defense function pfam09561 80.1% 0.25 Prediction cycle 1 Known system pfam14386 71.5% 0.45 Prediction cycle 1 Likely mobilome pfam14192 89.7% 0.30 Prediction cycle 1 Likely mobilome pfam12617 73.3% 0.24 Prediction cycle 1 Likely non-defense function pfam14203 88.3% 0.37 Prediction cycle 1 Likely mobilome pfam07550 67.6% 0.12 Prediction cycle 1 Likely non-defense function pfam15515 93.8% 0.37 Prediction cycle 1 Known system pfam14101 76.9% 0.11 Prediction cycle 1 Likely non-defense function pfam16509 79.5% 0.34 Prediction cycle 1 Likely mobilome pfam08950 65.4% 0.12 Prediction cycle 1 Likely non-defense function pfam09274 70.3% 0.39 Prediction cycle 1 Likely mobilome pfam07764 78.8% 0.19 Prediction cycle 1 Likely mobilome pfam11083 80.5% 0.11 Prediction cycle 1 Likely mobilome pfam12957 68.2% 0.48 Prediction cycle 1 Likely mobilome pfam14194 73.8% 0.29 Prediction cycle 1 Likely mobilome pfam14461 67.1% 0.35 Prediction cycle 1 Likely mobilome pfam12599 72.6% 0.55 Prediction cycle 1 Likely mobilome pfam16734 66.7% 0.39 Prediction cycle 1 Likely non-defense function pfam14452 85.5% 0.47 Prediction cycle 1 Likely non-defense function pfam14193 80.3% 0.31 Prediction cycle 1 Likely mobilome pfam14195 77.6% 0.39 Prediction cycle 1 Likely mobilome pfam02697 88.4% 0.38 Prediction cycle 1 Known system pfam14217 67.9% 0.30 Prediction cycle 1 Likely non-defense function pfam15611 92.5% 0.41 Prediction cycle 1 Possibly belongs to a new defense system pfam13910 65.1% 0.27 Prediction cycle 1 Possibly belongs to a new defense system pfam12958 67.2% 0.29 Prediction cycle 1 Likely mobilome pfam14130 66.5% 0.35 Prediction cycle 1 Possibly belongs to a new defense system pfam14460 65.9% 0.30 Prediction cycle 1 Likely mobilome pfam05626 83.4% 0.23 Prediction cycle 1 Uncertain pfam12664 72.1% 0.17 Prediction cycle 1 Likely mobilome pfam16560 73.7% 0.11 Prediction cycle 1 Likely mobilome pfam04796 69.8% 0.42 Prediction cycle 1 Likely mobilome pfam14271 66.0% 0.15 Prediction cycle 1 Likely non-defense function pfam08870 92.8% 0.32 Prediction cycle 1 Known system pfam11211 65.2% 0.29 Prediction cycle 1 Likely mobilome pfam12469 97.8% 0.67 Prediction cycle 1 Known system pfam05037 74.5% 0.21 Prediction cycle 1 Likely mobilome pfam06666 78.2% 0.32 Prediction cycle 1 Likely mobilome pfam06868 67.3% 0.30 Prediction cycle 1 Likely mobilome pfam08989 73.7% 0.28 Prediction cycle 1 Uncertain pfam04411 69.9% 0.54 Prediction cycle 1 Likely known system pfam11225 73.4% 0.16 Prediction cycle 1 Likely non-defense function pfam14350 68.9% 0.31 Prediction cycle 1 Known system pfam14335 91.7% 0.45 Prediction cycle 1 Possibly belongs to a new defense system pfam12476 72.9% 0.41 Prediction cycle 1 Possibly belongs to a new defense system pfam12750 77.7% 0.31 Prediction cycle 1 Likely mobilome pfam12564 94.5% 0.19 Prediction cycle 1 Known system pfam14198 70.8% 0.44 Prediction cycle 1 Likely mobilome pfam13872 71.6% 0.45 Prediction cycle 1 Likely mobilome pfam06634 91.9% 0.50 Prediction cycle 1 Possibly belongs to a new defense system pfam13871 72.8% 0.46 Prediction cycle 1 Likely mobilome pfam14283 81.6% 0.35 Prediction cycle 1 Likely mobilome pfam10987 70.9% 0.14 Prediction cycle 1 Likely non-defense function pfam08878 86.8% 0.38 Prediction cycle 1 Possibly belongs to a new defense system pfam13208 83.0% 0.24 Prediction cycle 1 Possibly belongs to a new defense system pfam09509 68.3% 0.39 Prediction cycle 1 Likely known system pfam12358 70.0% 0.34 Prediction cycle 1 Likely mobilome pfam15723 76.6% 0.17 Prediction cycle 1 Known system pfam10980 78.5% 0.22 Prediction cycle 1 Possibly belongs to a new defense system pfam15615 85.9% 0.23 Prediction cycle 1 Possibly belongs to a new defense system pfam08775 70.6% 0.23 Prediction cycle 1 Likely mobilome pfam08814 70.1% 0.48 Prediction cycle 1 Possibly belongs to a new defense system pfam11848 82.8% 0.53 Prediction cycle 1 Likely known system pfam12441 81.8% 0.42 Prediction cycle 1 Known system pfam14267 72.7% 0.54 Prediction cycle 1 Possibly belongs to a new defense system pfam14065 65.4% 0.14 Prediction cycle 1 Likely mobilome pfam13101 70.3% 0.25 Prediction cycle 1 Likely mobilome pfam01905 99.0% 0.37 Prediction cycle 1 Known system pfam13351 67.1% 0.25 Prediction cycle 1 Likely mobilome pfam13337 89.2% 0.44 Prediction cycle 1 Known system pfam11103 68.9% 0.36 Prediction cycle 1 Likely non-defense function pfam12083 85.2% 0.20 Prediction cycle 1 Likely mobilome pfam09035 73.8% 0.17 Prediction cycle 1 Likely mobilome pfam13707 93.3% 0.26 Prediction cycle 1 Likely known system pfam07638 67.4% 0.17 Prediction cycle 1 Likely non-defense function pfam08869 72.6% 0.43 Prediction cycle 1 Possibly belongs to a new defense system pfam14355 67.4% 0.33 Prediction cycle 1 Known system pfam03750 99.9% 0.25 Prediction cycle 1 Known system pfam06892 71.1% 0.12 Prediction cycle 1 Likely mobilome pfam14076 73.9% 0.33 Prediction cycle 1 Likely known system pfam07515 77.4% 0.20 Prediction cycle 1 Likely mobilome pfam02920 67.7% 0.17 Prediction cycle 1 Likely mobilome pfam10134 72.8% 0.34 Prediction cycle 1 Likely mobilome pfam11140 71.2% 0.13 Prediction cycle 1 Likely non-defense function pfam01881 90.7% 0.40 Prediction cycle 1 Known system pfam14072 80.6% 0.31 Prediction cycle 1 Known system pfam10552 72.0% 0.11 Prediction cycle 1 Likely mobilome pfam09952 92.9% 0.11 Prediction cycle 1 Known system pfam06290 87.1% 0.12 Prediction cycle 1 Likely mobilome pfam16277 85.0% 0.19 Prediction cycle 1 Likely known system pfam14367 97.4% 0.14 Prediction cycle 1 Known system pfam03683 85.0% 0.46 Prediction cycle 1 Known system pfam15937 96.2% 0.14 Prediction cycle 1 Likely mobilome pfam13156 79.4% 0.16 Prediction cycle 1 Likely known system pfam06952 84.0% 0.12 Prediction cycle 1 Likely mobilome pfam06953 78.6% 0.10 Prediction cycle 1 Likely non-defense function pfam14487 82.1% 0.18 Prediction cycle 1 Known system pfam05107 98.5% 0.35 Prediction cycle 1 Known system pfam13711 92.8% 0.32 Prediction cycle 1 Likely mobilome pfam10554 73.2% 0.12 Prediction cycle 1 Likely mobilome pfam07514 76.0% 0.21 Prediction cycle 1 Likely mobilome pfam05284 73.1% 0.36 Prediction cycle 1 Likely mobilome pfam13154 68.0% 0.28 Prediction cycle 1 Likely mobilome pfam14261 66.3% 0.35 Prediction cycle 1 Likely mobilome pfam07128 96.0% 0.13 Prediction cycle 1 Likely mobilome pfam08273 79.8% 0.13 Prediction cycle 1 Likely mobilome pfam13395 81.0% 0.25 Prediction cycle 1 Known system pfam06406 79.1% 0.16 Prediction cycle 1 Likely mobilome pfam14338 84.2% 0.23 Prediction cycle 1 Known system pfam10117 65.1% 0.35 Prediction cycle 1 Known system pfam13643 66.4% 0.35 Prediction cycle 1 Likely known system pfam08401 69.4% 0.33 Prediction cycle 1 Likely mobilome pfam09907 97.4% 0.14 Prediction cycle 1 Known system pfam13148 68.0% 0.25 Prediction cycle 1 Uncertain pfam07275 75.3% 0.14 Prediction cycle 1 Likely mobilome pfam15738 85.6% 0.18 Prediction cycle 1 Known system pfam13708 75.2% 0.11 Prediction cycle 1 Uncertain pfam14384 84.4% 0.22 Prediction cycle 1 Known system pfam07362 93.8% 0.12 Prediction cycle 1 Known system pfam03288 70.3% 0.13 Prediction cycle 1 Likely mobilome pfam05015 96.4% 0.21 Prediction cycle 1 Known system pfam13310 68.4% 0.36 Prediction cycle 1 Likely known system pfam11867 78.7% 0.29 Prediction cycle 1 Known system pfam05168 82.0% 0.31 Prediction cycle 1 Likely known system pfam04365 80.6% 0.28 Prediction cycle 1 Known system pfam13391 67.8% 0.28 Prediction cycle 1 Known system pfam13362 76.6% 0.19 Prediction cycle 1 Likely mobilome pfam08706 65.4% 0.16 Prediction cycle 1 Likely mobilome pfam08774 69.9% 0.11 Prediction cycle 1 Likely mobilome pfam03693 86.8% 0.16 Prediction cycle 1 Known system pfam04255 66.4% 0.32 Prediction cycle 1 Likely known system pfam13744 87.2% 0.15 Prediction cycle 1 Known system pfam06067 76.7% 0.15 Prediction cycle 1 Possibly belongs to a new defense system pfam14657 67.2% 0.11 Prediction cycle 1 Likely mobilome pfam15919 75.6% 0.26 Prediction cycle 1 Likely non-defense function pfam04221 84.2% 0.18 Prediction cycle 1 Known system pfam05973 78.5% 0.17 Prediction cycle 1 Known system pfam03235 66.7% 0.28 Prediction cycle 1 Possibly belongs to a new defense system pfam13635 68.0% 0.19 Prediction cycle 1 Possibly belongs to a new defense system pfam11657 78.9% 0.37 Prediction cycle 1 Likely mobilome pfam14662 72.0% 0.53 Prediction cycle 1 Likely non-defense function pfam04313 90.7% 0.23 Prediction cycle 1 Known system pfam08130 65.0% 0.31 Prediction cycle 1 Likely non-defense function pfam09116 94.7% 0.39 Prediction cycle 1 Likely mobilome pfam04582 85.1% 0.19 Prediction cycle 1 Likely mobilome pfam04875 79.3% 0.26 Prediction cycle 1 Likely mobilome pfam11592 68.2% 0.31 Prediction cycle 1 Likely non-defense function pfam09552 92.7% 0.47 Prediction cycle 1 Known system pfam10892 93.8% 0.29 Prediction cycle 1 Likely mobilome pfam09567 72.7% 0.53 Prediction cycle 1 Known system pfam02691 78.6% 0.12 Prediction cycle 1 Likely non-defense function pfam08046 78.9% 0.10 Prediction cycle 1 Likely non-defense function pfam11570 71.0% 0.24 Prediction cycle 1 Likely non-defense function pfam10083 81.9% 0.19 Prediction cycle 1 Likely mobilome pfam02048 68.5% 0.44 Prediction cycle 1 Likely non-defense function pfam13604 66.3% 0.10 Prediction cycle 1 Possibly belongs to a new defense system pfam11770 73.5% 0.32 Prediction cycle 1 Likely non-defense function pfam06709 86.8% 0.36 Prediction cycle 1 Possibly belongs to a new defense system pfam16790 84.2% 0.50 Prediction cycle 1 Likely mobilome pfam04604 65.0% 0.13 Prediction cycle 1 Likely non-defense function pfam12113 66.1% 0.17 Prediction cycle 1 Likely mobilome pfam14459 66.7% 0.68 Prediction cycle 1 Likely mobilome pfam12703 88.5% 0.28 Prediction cycle 1 Known system pfam02384 77.6% 0.22 Prediction cycle 1 Known system pfam16848 80.2% 0.15 Prediction cycle 1 Likely non-defense function pfam11056 76.2% 0.31 Prediction cycle 1 Likely mobilome pfam07339 95.1% 0.36 Prediction cycle 1 Likely mobilome pfam14562 96.9% 0.39 Prediction cycle 1 Known system pfam09185 82.9% 0.14 Prediction cycle 1 Likely non-defense function pfam12493 82.3% 0.32 Prediction cycle 1 Likely mobilome pfam16831 68.0% 0.28 Prediction cycle 1 Likely non-defense function pfam01818 75.0% 0.50 Prediction cycle 1 Likely mobilome pfam11554 67.2% 0.69 Prediction cycle 1 Likely mobilome pfam09504 97.8% 0.34 Prediction cycle 1 Known system pfam16243 100.0% 0.22 Prediction cycle 1 Likely mobilome pfam16280 90.9% 0.34 Prediction cycle 1 Likely known system pfam09020 98.5% 0.14 Prediction cycle 1 Likely mobilome pfam09562 80.0% 0.55 Prediction cycle 1 Known system pfam07154 75.5% 0.45 Prediction cycle 1 Possibly belongs to a new defense system pfam06443 77.1% 0.12 Prediction cycle 1 Likely non-defense function pfam03295 100.0% 0.50 Prediction cycle 1 Likely mobilome pfam13128 68.4% 0.15 Prediction cycle 1 Likely mobilome pfam11504 74.8% 0.18 Prediction cycle 1 Likely non-defense function pfam12136 98.2% 0.14 Prediction cycle 1 Likely non-defense function pfam07042 74.7% 0.50 Prediction cycle 1 Likely mobilome pfam11459 87.6% 0.24 Prediction cycle 1 + Likely known system Makarova et al. (2011)⁴ pfam11726 79.5% 0.12 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam01954 87.5% 0.54 Prediction cycle 1 + Known system Makarova et al. (2011) pfam03428 86.2% 0.26 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam06924 91.9% 0.19 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam07183 77.6% 0.59 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam11800 84.5% 0.26 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam09722 90.4% 0.12 Prediction cycle 1 + Known system Makarova et al. (2011) pfam11994 72.6% 0.39 Prediction cycle 1 + Possibly belongs to a new defense Makarova et al. (2011) system pfam12101 84.6% 0.19 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam08900 90.5% 0.17 Prediction cycle 1 +30 Likely mobilome Makarova et al. (2011) pfam10074 83.5% 0.24 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam11000 71.8% 0.22 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam11284 86.2% 0.21 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam11358 95.8% 0.17 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam11679 93.3% 0.18 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) pfam12553 86.9% 0.19 Prediction cycle 1 + Likely mobilome Makarova et al. (2011) COG4688 Makarova et al. (2011) Likely mobilome COG4190 Makarova et al. (2011) Likely known system COG5428 Makarova et al. (2011) Likely known system COG3756 Makarova et al. (2011) Likely mobilome COG4185 Makarova et al. (2011) Likely non-defense function COG4854 Makarova et al. (2011) Likely non-defense function COG5532 Makarova et al. (2011) Likely mobilome COG5545 Makarova et al. (2011) Likely mobilome COG5658 Makarova et al. (2011) Likely non-defense function pfam01724 64.0% 0.34 Makarova et al. (2011) Likely non-defense function pfam03432 62.3% 0.27 Makarova et al. (2011) Likely mobilome pfam09588 40.7% 0.25 Makarova et al. (2011) Likely mobilome pfam11238 37.1% 0.10 Makarova et al. (2011) Likely non-defense function COG1205 Makarova et al. (2011) Possibly belongs to a new defense system COG4913 Makarova et al. (2011) Possibly belongs to a new defense system COG4924 Makarova et al. (2011) Possibly belongs to a new defense system pfam04383 32.4% 0.28 Makarova et al. (2011) Possibly belongs to a new defense system COG1112 Makarova et al. (2011) Uncertain COG1373 Makarova et al. (2011) Uncertain COG2865 Makarova et al. (2011) Uncertain COG3598 Makarova et al. (2011) Likely mobilome pfam10543 55.9% 0.26 Makarova et al. (2011) Uncertain pfam11185 50.8% 0.35 Makarova et al. (2011) Uncertain pfam09823 69.1% 0.52 Makarova et al. (2011) Likely known system COG5519 Makarova et al. (2011) Likely mobilome pfam10711 29.6% 0.18 Makarova et al. (2011) Likely mobilome COG1483 Makarova et al. (2011) Possibly belongs to a new defense system COG3586 Makarova et al. (2011) Possibly belongs to a new defense system COG3950 Makarova et al. (2011) Possibly belongs to a new defense system COG4804 Makarova et al. (2011) Possibly belongs to a new defense system pfam01541 31.4% 0.10 Makarova et al. (2011) Uncertain COG1475 Makarova et al. (2011) Likely mobilome COG0507 Makarova et al. (2011) Likely non-defense function COG0553 Makarova et al. (2011) Possibly belongs to a new defense system COG1192 Makarova et al. (2011) Likely mobilome COG1451 Makarova et al. (2011) Possibly belongs to a new defense system COG3727 Makarova et al. (2011) Known system pfam01464 22.2% 0.10 Makarova et al. (2011) Likely mobilome pfam02876 60.9% 0.01 Makarova et al. (2011) Likely non-defense function pfam03837 33.5% 0.12 Makarova et al. (2011) Likely mobilome pfam08861 30.3% 0.09 Makarova et al. (2011) Likely known system pfam09199 92.0% 0.00 Makarova et al. (2011) Likely non-defense function pfam09954 21.0% 0.31 Makarova et al. (2011) Possibly belongs to a new defense system COG3505 Makarova et al. (2011) Likely mobilome COG3843 Makarova et al. (2011) Likely mobilome COG4227 Makarova et al. (2011) Likely mobilome COG4646 Makarova et al. (2011) Likely mobilome COG4930 Makarova et al. (2011) Known system COG5489 Makarova et al. (2011) Likely mobilome pfam07895 42.0% 0.03 Makarova et al. (2011) Likely non-defense function pfam08849 95.2% 0.39 Makarova et al. (2011) Known system pfam09002 46.1% 0.50 Makarova et al. (2011) Known system pfam11198 80.0% 0.14 Makarova et al. (2011) Likely mobilome pfam11455 97.1% 0.10 Makarova et al. (2011) Known system pfam11985 22.7% 0.18 Makarova et al. (2011) Likely mobilome COG1479 Makarova et al. (2011) Known system COG3472 Makarova et al. (2011) Known system pfam10923 93.1% 0.28 Makarova et al. (2011) Possibly belongs to a new defense system pfam12495 85.7% 0.17 Prediction cycle 2 Likely non-defense function pfam04787 100.0% 1.00 Prediction cycle 2 Likely mobilome pfam15541 69.0% 0.40 Prediction cycle 2 Likely mobilome pfam04778 68.8% 0.36 Prediction cycle 2 Likely non-defense function pfam07199 69.7% 0.26 Prediction cycle 2 Likely non-defense function pfam10790 68.4% 0.65 Prediction cycle 2 Likely mobilome pfam09131 79.5% 0.19 Prediction cycle 2 Likely non-defense function pfam16445 66.7% 0.19 Prediction cycle 2 Likely non-defense function pfam11519 69.0% 0.28 Prediction cycle 2 Likely non-defense function pfam11516 95.3% 0.17 Prediction cycle 2 Likely non-defense function pfam16904 76.5% 0.10 Prediction cycle 2 Likely non-defense function pfam07046 90.4% 0.11 Prediction cycle 2 Likely non-defense function pfam16436 86.8% 0.11 Prediction cycle 2 Likely non-defense function pfam14590 72.2% 0.15 Prediction cycle 2 Likely non-defense function pfam12772 69.8% 0.22 Prediction cycle 2 Likely non-defense function pfam11263 98.3% 0.10 Prediction cycle 2 Likely non-defense function pfam10913 69.7% 0.11 Prediction cycle 2 Likely mobilome pfam16390 68.8% 0.13 Prediction cycle 2 Uncertain pfam16847 65.0% 0.38 Prediction cycle 2 Likely non-defense function pfam11565 92.0% 0.11 Prediction cycle 2 Likely non-defense function pfam03857 65.7% 0.52 Prediction cycle 2 Likely non-defense function pfam13497 92.2% 0.19 Prediction cycle 2 Likely mobilome pfam08048 85.3% 0.33 Prediction cycle 2 Likely mobilome pfam09264 83.5% 0.11 Prediction cycle 2 Likely non-defense function pfam05946 72.9% 0.13 Prediction cycle 2 Likely non-defense function pfam09930 97.8% 0.16 Prediction cycle 2 Likely non-defense function pfam16163 68.5% 0.68 Prediction cycle 2 Likely non-defense function pfam16754 75.7% 0.29 Prediction cycle 2 Known system pfam16416 65.2% 0.48 Prediction cycle 2 Possibly belongs to a new defense system pfam06613 82.2% 0.36 Prediction cycle 2 Likely mobilome pfam16479 88.9% 0.11 Prediction cycle 2 Likely non-defense function pfam05969 65.3% 0.40 Prediction cycle 2 Likely non-defense function pfam15538 66.0% 0.10 Prediction cycle 2 Likely non-defense function pfam10865 68.9% 0.41 Prediction cycle 2 Likely non-defense function pfam07828 85.5% 0.12 Prediction cycle 2 Likely non-defense function pfam11580 85.6% 0.10 Prediction cycle 2 Likely non-defense function pfam08017 68.3% 0.10 Prediction cycle 2 Likely non-defense function pfam05265 88.7% 0.12 Prediction cycle 2 Likely mobilome pfam13009 66.7% 0.53 Prediction cycle 2 Likely mobilome pfam09016 65.9% 0.19 Prediction cycle 2 Likely non-defense function pfam10726 67.3% 0.29 Prediction cycle 2 Likely non-defense function pfam10130 69.0% 0.71 Prediction cycle 2 Known system pfam10616 78.4% 0.10 Prediction cycle 2 Likely non-defense function pfam13314 69.8% 0.11 Prediction cycle 2 Likely non-defense function pfam04485 65.1% 0.35 Prediction cycle 2 Possibly belongs to a new defense system pfam12655 65.6% 0.12 Prediction cycle 2 Likely non-defense function pfam13079 69.0% 0.11 Prediction cycle 2 Likely non-defense function pfam14275 67.6% 0.13 Prediction cycle 2 Likely non-defense function pfam11686 70.8% 0.11 Prediction cycle 2 Likely non-defense function pfam11397 67.0% 0.13 Prediction cycle 2 Likely non-defense function pfam11796 65.0% 0.59 Prediction cycle 2 Possibly belongs to a new defense system pfam09000 66.3% 0.28 Prediction cycle 2 Likely non-defense function pfam14453 65.8% 0.12 Prediction cycle 2 Likely non-defense function pfam13651 85.8% 0.46 Prediction cycle 2 Known system pfam11173 66.6% 0.11 Prediction cycle 2 Likely non-defense function pfam16162 70.6% 0.46 Prediction cycle 2 Possibly belongs to a new defense system pfam12975 68.1% 0.11 Prediction cycle 2 Likely non-defense function pfam14133 71.1% 0.18 Prediction cycle 2 Likely non-defense function pfam16082 65.4% 0.15 Prediction cycle 2 Likely mobilome pfam16223 66.3% 0.11 Prediction cycle 2 Likely non-defense function pfam12545 65.6% 0.11 Prediction cycle 2 Likely non-defense function pfam09664 67.9% 0.50 Prediction cycle 2 Possibly belongs to a new defense system pfam11813 79.5% 0.10 Prediction cycle 2 Likely non-defense function pfam11149 69.5% 0.52 Prediction cycle 2 Likely mobilome pfam16263 76.4% 0.35 Prediction cycle 2 Possibly belongs to a new defense system pfam12119 72.8% 0.11 Prediction cycle 2 Likely non-defense function pfam10893 91.7% 0.13 Prediction cycle 2 Likely mobilome pfam14790 67.2% 0.11 Prediction cycle 2 Likely non-defense function pfam12668 68.0% 0.38 Prediction cycle 2 Possibly belongs to a new defense system pfam14082 65.3% 0.57 Prediction cycle 2 Possibly belongs to a new defense system pfam06698 79.9% 0.12 Prediction cycle 2 Likely non-defense function pfam07509 65.6% 0.12 Prediction cycle 2 Likely non-defense function pfam07323 77.8% 0.12 Prediction cycle 2 Likely non-defense function pfam09919 98.4% 0.11 Prediction cycle 2 Likely non-defense function pfam16930 85.1% 0.11 Prediction cycle 2 Likely non-defense function pfam14113 71.7% 0.14 Prediction cycle 2 Likely non-defense function pfam13151 65.5% 0.40 Prediction cycle 2 Possibly belongs to a new defense system pfam14328 71.3% 0.13 Prediction cycle 2 Likely non-defense function pfam07511 68.4% 0.23 Prediction cycle 2 Likely mobilome pfam14281 71.4% 0.59 Prediction cycle 2 Possibly belongs to a new defense system pfam14584 79.8% 0.12 Prediction cycle 2 Likely non-defense function pfam11047 78.1% 0.11 Prediction cycle 2 Likely non-defense function pfam11660 70.4% 0.20 Prediction cycle 2 Likely mobilome pfam11190 67.1% 0.20 Prediction cycle 2 Likely mobilome pfam14103 97.7% 0.39 Prediction cycle 2 Likely known system pfam09686 68.6% 0.20 Prediction cycle 2 Likely mobilome pfam15978 75.8% 0.25 Prediction cycle 2 Likely mobilome pfam09376 67.6% 0.33 Prediction cycle 2 Possibly belongs to a new defense system pfam12602 69.9% 0.18 Prediction cycle 2 Likely mobilome pfam07455 91.6% 0.11 Prediction cycle 2 Likely mobilome pfam16452 82.1% 0.13 Prediction cycle 2 Likely mobilome pfam11072 75.0% 0.20 Prediction cycle 2 Likely mobilome pfam14253 69.7% 0.30 Prediction cycle 2 Known system pfam15731 83.3% 0.28 Prediction cycle 2 Known system pfam05419 65.3% 0.43 Prediction cycle 2 Possibly belongs to a new defense system pfam12870 65.4% 0.18 Prediction cycle 2 Likely non-defense function pfam10723 78.2% 0.20 Prediction cycle 2 Likely mobilome pfam14302 67.0% 0.10 Prediction cycle 2 Likely non-defense function pfam14348 69.7% 0.23 Prediction cycle 2 Likely mobilome pfam10049 75.1% 0.51 Prediction cycle 2 Likely known system pfam13814 65.5% 0.25 Prediction cycle 2 Likely mobilome pfam12834 67.9% 0.27 Prediction cycle 2 Likely mobilome pfam09937 66.2% 0.10 Prediction cycle 2 Likely non-defense function pfam08937 67.8% 0.33 Prediction cycle 2 Possibly belongs to a new defense system pfam09903 65.6% 0.26 Prediction cycle 2 Possibly belongs to a new defense system pfam02521 90.4% 0.11 Prediction cycle 2 Likely non-defense function pfam12835 70.7% 0.31 Prediction cycle 2 Likely mobilome pfam02387 75.9% 0.20 Prediction cycle 2 Likely mobilome pfam13784 65.1% 0.47 Prediction cycle 2 Possibly belongs to a new defense system pfam09848 65.6% 0.45 Prediction cycle 2 Known system pfam12950 67.4% 0.39 Prediction cycle 2 Known system pfam13166 75.6% 0.39 Prediction cycle 2 Known system pfam13555 70.4% 0.27 Prediction cycle 2 Possibly belongs to a new defense system pfam01927 65.2% 0.19 Prediction cycle 2 Likely known system pfam06006 93.4% 0.14 Prediction cycle 2 Likely mobilome pfam06174 98.7% 0.10 Prediction cycle 2 Likely mobilome pfam11398 85.9% 0.10 Prediction cycle 2 Likely non-defense function pfam12686 65.4% 0.32 Prediction cycle 2 Likely mobilome pfam03596 70.8% 0.12 Prediction cycle 2 Likely non-defense function pfam06527 68.3% 0.31 Prediction cycle 2 Likely mobilome pfam07799 70.7% 0.12 Prediction cycle 2 Likely mobilome pfam13470 67.0% 0.43 Prediction cycle 2 Known system pfam13588 68.3% 0.37 Prediction cycle 2 Known system pfam05713 65.0% 0.39 Prediction cycle 2 Likely mobilome pfam05272 68.0% 0.17 Prediction cycle 2 Uncertain pfam13749 69.0% 0.43 Prediction cycle 2 Possibly belongs to a new defense system pfam13657 69.5% 0.30 Prediction cycle 2 Known system pfam04326 65.1% 0.39 Prediction cycle 2 Possibly belongs to a new defense system pfam06769 96.5% 0.12 Prediction cycle 2 Known system pfam02498 66.8% 0.17 Prediction cycle 2 Likely mobilome pfam13173 68.3% 0.26 Prediction cycle 2 Possibly belongs to a new defense system pfam05685 67.2% 0.27 Prediction cycle 2 Uncertain pfam13538 66.9% 0.13 Prediction cycle 2 Possibly belongs to a new defense system pfam01402 67.6% 0.12 Prediction cycle 2 Likely non-defense function pfam12705 76.4% 0.10 Prediction cycle 2 Likely non-defense function pfam13175 73.9% 0.37 Prediction cycle 2 Possibly belongs to a new defense system pfam13304 63.8% 0.33 Prediction cycle 2 Possibly belongs to a new defense system ⁴Makarova et al. J Bacteriol. 2011 Nov; 193(21): 6039-6056

From genes to systems: Each of the putative defense-related gene families was used as an anchor to search for multi-gene systems, as follows. The protein coding sequences for neighboring genes (+/−10 genes) for all family members were clustered based on sequence homology (for example, if pfamY is found within 50 genomes in our set, the 20 neighboring genes in each genome, plus the pfamY gene in each genome, were taken—altogether 50*21=1050 genes to be clustered). Clustering was done with OrthoMCL software v2.0.9 (Li L, Stoeckert C J, Roos D S. (2003) OrthoMCL: identification of ortholog groups for eukaryotic genomes. Genome Res. 13: 2178-89) with blastp parameters [-F ′m S′-v 100000 -b 100000 -e 1e-5 -m 8] and with mcl v12.068 downloaded from http://micans.org/mcl/ (Enright A J, Van Dongen S, Ouzounis C A. (2002) An efficient algorithm for large-scale detection of protein families. nucleic Acids Res. 30: 1575-84; van Dongen S, Abreu-Goodger C. (2012) Using MCL to Extract Clusters from Networks. Methods in molecular biology (Clifton, N.J.). pp. 281-295) with inflation value of 1.1. When the number of blastp hits for a given anchor pfam was too large and prohibitive for OrthoMCL to generate clusters (>75 million blastp hits), a subset of genomes, containing only bacterial and archaeal genomes annotated as “complete” (rather than “draft”) was used for clustering.

To detect the most prevalent genes around the anchor pfam, only the 10% largest clusters (“frequent clusters”) were considered. For the sake of cluster size calculation, genes originating from the same species (derived from the strain name in the NCBI annotation) were counted as one gene, to prevent organisms for which many strains have been sequenced from inflating the cluster size. An edge between cluster(i) and cluster(j) was defined if a gene from cluster(j) followed a gene from cluster(i) in a given genome with no other genes belonging to frequent clusters found in between, with edge weight (“thickness”) defined as the number of such adjacency cases. Again, edge weights were adjusted such that multiple appearances of a cluster pair originating from the same species were recorded as a single appearance. Only the 10% thickest edges were retained for further analysis. In each genome, the maximal “path” that included the anchor pfam gene and was composed of the retained (largest) clusters and the retained (thickest) edges was recorded. Such a “path”, representing a set of genes appearing in a conserved order in multiple genomes, was considered a candidate multi-gene system. Infrequent variations on the gene order and composition of common systems were merged into the common system if they shared at least 50% of their clusters and had less than 25% appearances than the common system. Only systems with five or more appearances from different species were further analyzed.

The domains within the gene members of each system were analyzed bioinformatically using the tools HHpred (Soding J, Biegert A, Lupas A N. (2005) The HHpred interactive server for protein homology detection and structure prediction. nucleic Acids Res. 33: W244-W248; Alva V, Nam S-Z, Soding J, Lupas A N, I. S, S. C, et al. (2016) The MPI bioinformatics Toolkit as an integrative platform for advanced protein sequence and structure analysis. nucleic Acids Res. Oxford University Press; 44: W410-W415), Phyre2 (Kelley L A, Mezulis S, Yates C M, Wass M N, Sternberg M J E. (2015) The Phyre2 web portal for protein modeling, prediction and analysis. Nat Protoc. Nature Research; 10: 845-858), PSI-BLAST (Altschul S F, Madden T L, Schïffer A A, Zhang J, Zhang Z, Miller W, et al. (1997) Gapped BLAST and PSI-BLAST: a new generation of protein database search programs. nucleic Acids Res. 25: 3389-402), and NCBI's Conserved Domain Database (CDD) (Marchler-Bauer A, Lu S, Anderson J B, Chitsaz F, Derbyshire M K, DeWeese-Scott C, et al. (2011) CDD: a Conserved Domain Database for the functional annotation of proteins. nucleic Acids Res. 39: D225-D229). The systems were then manually filtered, based on this analysis, to remove (i) known defense systems whose domains did not appear in our initial set of gene families known to participate in defense; (ii) systems likely representing mobile genetic elements (“mobilome”) and; (iii) systems likely participating in non-defensive functions or house-keeping systems (Table 2).

A second cycle of prediction was then performed, expanding the set of “positive” gene families from Table 1 to include the gene families participating in the candidate new defense systems, as well as the gene families participating in known defense systems that were previously missing from our set and detected in the first round. All pfams were again scanned and the same thresholds were applied (defense score 65%, context variability score 0.1). New pfams retrieved from the second cycle were analyzed as above to generate and annotate multi-gene systems.

Candidate new systems were further prioritized to select instances for experimental validations. Systems tagged as “questionable”, due to uncertainty whether they represent defense genes or mobile genetic elements, were filtered out (Table 3). Systems existing in only a narrow range of organisms, as well as systems that were not found in organisms phylogenetically close either to E. coli or B. subtilis, were not tested experimentally (Table 3).

TABLE 3 Candidate Defense Systems Included/ Excluded from Anchor protein Number experimental families of genes? study Reason for exclusion pfam04033 1 Excluded Archaea specific pfam11536 2 Excluded Thermococcus specific pfam12635; 3-4 Included — pfam06634; COG1483 pfam09544 3-4 Excluded Myxococcales specific pfam15611; 3-4 Included — COG0553 pfam13910 1 Included — pfam14130 2 Included — pfam14335 1-2 Excluded No locus that is a stand- alone gene, always within R-M systems pfam12476; 3 Included — pfam03235 pfam08878 2 included — pfam13208; 3 Included — pfam15615; pfam10923 pfam10980 7 Included — pfam08814; 2 Excluded Cyanobacteria specific pfam08869 pfam14267 1 Included — pfam06067 1-2 Excluded Loci in Bacillus are in phage/mobilome context pfam13635; 1 Included — pfam13173 pfam13604; 1 Included — pfam13538 pfam06709 1 Excluded Vibrio specific pfam07154 1 Excluded Cyanobacteria specific pfam11994 3 Excluded Not found in bacillus/coli COG1205 2-5 Included — COG4913; 3-4 Included — COG4924; pfam11796; pfam09664; pfam13555 pfam04383 1 Included — COG3586 1 Included — COG3950 2 Included — COG4804 1 Included — COG1451 1 Included — pfam09954 1 Excluded No appropriate locus that is a stand-alone gene, always comes with other genes + already exists in BEST7003 pfam16416; 2-4 Excluded Cyanobacteria specific pfam05419 pfam04485 4 Excluded Cyanobacteria specific pfam16162 2 Included — pfam16263 1 Excluded Loci in Bacillus are in phage/mobilome context pfam12668; 2 Included — pfam13151 pfam14082 1 Included — pfam14281 1 Included — pfam09376 3 Included — pfam08937 2 Included — pfam09903 1 Included — pfam13784 1 Included — pfam13749; 1 Included — pfam04326 pfam13175; 2 included — pfam13304

Phylogenetic Distribution Analysis of New Systems:

For each validated defense system, several loci including the locus that was experimentally verified were taken as seeds for psi-Blast. psi-Blast version 2.5.0 of BLAST+ (Altschul S F, Madden T L, Schïffer A A, Zhang J, Zhang Z, Miller W, Lipman D J. (1997) Gapped BLAST and PSI-BLAST: a new generation of protein database search programs. nucleic Acids Res.; 25: 3389-402; Camacho C, Coulouris G, Avagyan V, Ma N, Papadopoulos J, Bealer K, Madden TL. (2009) BLAST+: architecture and applications. BMC Bioinformatics. 10: 421. doi: 10.1186/1471 -2105-10-421) with parameters [-num_iterations 10 -max_hsps 1 -max_target_seqs 100000 -evalue 1e-10] was performed for each protein of each system, against all microbial genomes downloaded from NCBI on April 2016. When the hits of all proteins of a system were found closely localized on a genome, spanning no more than 150% of the length of the original system, this genome was recorded as containing the system. For the Druantia and Wadjet systems, -evalue 1e-5 was used to enable detection of distant homologs. For systems with 4 or 5 genes (Zorya type I, Druantia types I and II, Wadjet), systems were reported if at least 3 of their genes were identified. For the Druantia system, systems with hits to the DruE protein were retained if the DruE size was >1300aa. For the Thoeris system, multiple thsB genes near the thsA gene were recorded if they were within 10 kb of genomic DNA around the identified thsA. Phylum for each genome was obtained using the JGI taxonomy server (https://taxonomyjgi-psf.org/).

Experimental Validation of Defense Systems

Cloning of the Systems into E. coli MG1655 and/or B. subtilis BEST7003

A cloning shuttle vector for large fragments was constructed as previously described (Ofir G, Melamed S, Sberro H, Silverman S, Doron S, Yaakov G, Mukamel Z, Sorek R. (2017) DISARM, a novel bacterial defense system with broad anti-phage activities, submitted). The vector contains a p15a origin of replication and ampicillin resistance for plasmid propagation in E. coli, and amyE integration cassette with spectinomycin resistance for genomic integration into B. subtilis. The backbone of this vector was amplified using primers OGO309+OGO310, adding to it a BamHI restriction site and a terminator site upstream to the insert cloning site. The multiple cloning site of plasmid pBS1C (Radeck J, Kraft K, Bartels J, Cikovic T, Dürr F, Emenegger J, Kelterborn S, Sauer C, Fritz G, Gebhard S, Mascher T. (2013) The Bacillus BioBrick Box: generation and evaluation of essential genetic building blocks for standardized work with Bacillus subtilis. J Biol Eng. BioMed Central; 7: 29. doi:10.1186/1754-1611-7-29), received from BGSC (accession ECE257), was amplified using primers OGO311+OGO312. Both fragments were digested using AscI and BamHI, ligated using T4 ligase and transformed into E. coli, resulting in plasmid pSG1-rfp.

The loci of most systems were commercially synthesized by Genscript and cloned, also by Genscript, directly into pSG1-rfp between the AscI and NotI sites of the multiple cloning site (Table 4: “Cloning method” column).

TABLE 4 Loci for Candidate Systems Anchor Construct Donor bacteria protein System number (IMG Position Length families name (C.N.) accession) (strand) in bp pfam16162 Kiwa 1 Bacillus sp. 1801073-1803310 2238 FJAT-27997 (+) (Ga0081961_11) Kiwa 2 E. coli O55:H7 5120652-5122819 2168 RM12579 (−) (CP003109) pfam08878 Hachiman 3 B. cereus 106560-111167 5122 B4087 (−) (phylogroup III-12 9) (LCYM01000053) Hachiman 4 B. cereus 77887-82731 4845 H3081.97 (+) (ABDL02000007) pfam13749; 5 B. iranensis 391132-393430 2299 pfam04326 DSM 23995 (+) (Ga0075261_103) 6 B. boroniphilus 3453-5851 2399 JCM 21738 (−) (Ga0054992_1085) pfam13175; Gabija 7 B. cereus 172515-177839 5325 pfam13304 HuB5-5 (+) (AHEG01000016) Gabija 8 B. cereus 93871-97763 3893 VD045 (+) (AHET01000033) pfam13208; 9 B. methanolicus 1037084-1043201 6118 pfam15615; PB1 (−) pfam10923 (AFEU01000001) 10 B. cereus 118058-124729 6672 NVH0597-99 (−) ABDK02000013 (ABDK02000013) pfam04383 11 Enterococcus 142827-143797 970 faecalis TR197 (+) (ASDV01000010) 12 Lactobacillus 785262-786580 1320 plantarum (−) subsp. plantarum ST- III chromosome (NC_014554) pfam14130 Lamassu 13 Bacillus sp. 104996-108335 3358 NIO-1130 (−) (Ga0061086_109) Lamassu 14 B. cereus 52399-56035 3637 VD014 (+) (AHER01000061) pfam10980 15 Pseudoalteromonas 119710-124196 4486 marina (−) mano4 (AHCB02000060) 16 E. coli UMEA 116829-122750 5921 3355-1 (−) (AWDK01000015) pfam13604; 17 B. cereus 120797-124381 3585 pfam13538 HuA2-1 (+) (AHDV01000009) 18 B. paralicheniformis 4324128-4327523 3382 ATCC 9945a (−) (CP005965 (NC 021362)) pfam13635; 19 Bacillus sp. 420-2978 2559 pfam13173 L1(2012) (−) (BLTDRAFT_ANNK01000002_1.2) 20 Bacillus sp. 98213-100268 2056 MT2 (+) (Ga0058649_116) pfam12668; 21 B. cereus 4327581-4328881 1301 pfam13151 G9241 (−) (Ga0077877_11) 22 B. cereus 92524-94334 1811 R309803 (−) (NZ_ACLY01000076) pfam09376 23 B. cereus Q1 1003565-1008191 4627 (NC_011969) (+) 24 B. subtilis Hall 25333-30937 5605 (A921DRAFT_AMCA01000155_1.155) (−) pfam13784 25 E. coli H397 928-2724 1797 (AEXH01000043) (−) 26 E. coli UMEA 254125-256825 2000 3108-1 (+) (AWBD01000001) pfam14082 Shedu 27 B. cereus 186286-187555 1270 BAG2O-2 (−) (AHCX01000044) Shedu 28 B. cereus 954837-957049 2213 B4264 (−) (NC_011725) pfam12635; 29 Paenibacillus 743619-754251 10633 pfam06634; sabinae T27 (+) COG1483 (CP004078) COG4804 30 Paenibacillus 649-3948 3300 sophorae S27 (+) (L689DRAFT_ASSF01000040_1.18) pfam08937 Thoeris 31 B. cereus MSX- 16453-19685 2477 D12 (+) (AHEQ01000050) Thoeris 32 B. amyloliquefaciens 2071378-2073427 2050 Y2 (−) (CP003332) Thoeris 33 B. cereus 93628-95745 1689 HuB4-4 (+) (AHEF01000014) Thoeris 34 B. thuringiensis 134769-136361 1590 serovar (−) finitimus YBT- 020 plasmid pBMB26 (CP002509) pfam14267 35 Paenibacillus 94753-96069 1316 macerans 8244 (−) (Ga0097770_129) 36 B. cereus 57053-58320 1154 BAG2X1-1 (−) (AHCZ01000031) pfam12476; 37 Solibacillus 1395361-1399023 3663 pfam03235 silvestris (+) (AP012157) 38 Tumebacillus 100864-104082 3219 flagellatus (−) GST4 (JMIR01000008) 39 Paenibacillus 23305-26493 3189 sp. FSL R7-269 (+) (ASPS01000025) COG1451 40 B. cereus 119987-121875 1888 MC67 (+) (AHEN01000008) 41 B. cereus IS195 240659-242023 1364 (AHEH01000058) (+) COG3950 Septu 42 B. thuringiensis 2740820-2743903 3083 HD12 (+) (Ga0125139_15) Septu 43 B. weihenstephanensis 3499862-3504110 3745 KBAB4 (−) (NC_010184) Septu 44 B. cereus 90978-93642 2665 m1293 (−) (NZ_ACLS01000104) COG3586 45 B. paralicheniformis 829842-834035 4194 ATCC 9945a (+) (CP005965 (NC_021362)) 46 B. vallismortis 121062-122280 1219 DV1-F-3 (+) (GYSDRAFT_AFSH01000055_1.55) 47 Bacillus sp. 1839870-1841334 1465 BC15 (+) (Ga0066720_10) pfam09903 48 Geobacter sulfurreducens 72105-73998 1894 AM-1 (+) (Ga0098194_11) pfam15611; Zorya 49 E. coli 298890-307639 8750 COG0553 E24377A (−) (NC_009801) Zorya 50 E. coli KOEGE 522466-531355 8890 71 (186a) (+) (AWAO01000003) Zorya 51 E. coli ATCC 4265695-4269611 3917 8739 (+) (NC_010468) pfam14281 52 B. cereus LK9 37579-39692 2114 (Ga0081098-108) (−) 53 B. cereus 14516-15854 1339 VD200 (+) (AHFM01000019) 54 B. subtilis HM- 187758-189194 1437 66 (−) (Ga0124450_104) COG1205 Druantia 55 E. coli KTE181 35990-46193 10204 (ANTC01000054) (+) Druantia 56 E. coli UMEA 219529-231495 11967 4076-1 (+) (AWEM01000032) Druantia 57 B. cereus LK9 4022-14331 10310 (Ga0081098_108) (−) pfam13910 58 B. megaterium 3517210-3519233 2024 Q3 (−) (Ga0081752_11) COG4913; Wadjet 59 B. cereus Q1 1011280-1018329 7050 COG4924; (NC_011969) (+) pfam11796; pfam09664; pfam13555 Wadjet 60 B. vireti LMG 67917-76250 8334 21834 (−) (ALAN01000059) Wadjet 61 B. thuringiensis 1018412-1025427 7013 serovar (+) finitimus YBT- 020 plasmid pBMB26 (CP002508) Controls Type III 63 Lactobacillus 1034479-1039919 5441 RM system rhamnosus GG (+) (BceSI) (AP011548) Type III 64 B. thuringiensis 52683-53616 934 TA system sv. kurstaki (+) (ToxIN) HD-1 (CP004874) Type II RM 65 B. amyloliquefaciens 3187589-3190876 3192 system DSM 7 (+) (BamHI) (NC_014551) Abi system 66 B. cereus 18460-19683 1224 (AbiH) ATCC 10876 (−) (NZ_ACLT01000157) Type I RM 67 B. glycinifermentans 59672-66665 6994 system TH008 (−) (BliDi) (Ga0077513_1025) DISARM 68 B. paralicheniformis 815730-826377 10648 ATCC 9945a (+) (CP005965 (NC_021362)) Negative 69 (empty vector) 0 Control NA Open Anchor Construct SEQ Reading protein System number Cloning Cloning ID Frame families name (C.N.) method successful? NO: Expressed? Coordinates pfam16162 Kiwa 1 Synthesis yes yes Kiwa 2 Synthesis yes SEQ yes kwaA: 572-1159 ID kwaB: 1156-2103 NO: 3 pfam08878 Hachiman 3 Synthesis yes SEQ yes hamA: 339-1154 ID hamB: 1114-4506 NO: 4 Hachiman 4 Synthesis yes yes pfam13749; 5 Synthesis yes yes pfam04326 6 Synthesis yes yes pfam13175; Gabija 7 Synthesis yes SEQ yes gajA: 810-2870 pfam13304 ID gajB: 2873-4927 NO: 5 Gabija 8 Synthesis yes SEQ yes gajA: 320-2056 ID gajB: 2058-3542 NO: 6 pfam13208; 9 Synthesis yes yes pfam15615; pfam10923 10 Synthesis yes yes pfam04383 11 Synthesis yes yes 12 Synthesis yes yes pfam14130 Lamassu 13 Strain yes SEQ yes lmuA: 361-1308 obtained ID lmuB: 1314-3002 from NO: 7 DSMZ (DSM 25149) Lamassu 14 Synthesis yes SEQ yes lmuA: 877-1863 ID lmuB: 1868-3562 NO: 8 pfam10980 15 Synthesis yes yes 16 Synthesis no — pfam13604; 17 Synthesis yes yes pfam13538 18 Strain yes yes obtained from ATCC (9945a) pfam13635; 19 Synthesis yes yes pfam13173 20 Synthesis yes yes pfam12668; 21 Synthesis yes yes pfam13151 22 Synthesis yes yes pfam09376 23 Synthesis yes yes 24 Synthesis yes yes pfam13784 25 Synthesis yes yes 26 Synthesis yes yes pfam14082 Shedu 27 Synthesis yes yes Shedu 28 Synthesis yes SEQ yes sduA: 760-1902 ID NO: 9 pfam12635; 29 Strain no — pfam06634; obtained COG1483 from DSMZ (DSM 17841) COG4804 30 Synthesis yes yes pfam08937 Thoeris 31 Synthesis yes SEQ yes thsA: 205-1635 ID thsB: 1674-2252 NO: 10 Thoeris 32 Synthesis yes SEQ yes thsA: 298-1191 ID thsB: 1181-1753 NO: 11 Thoeris 33 Synthesis yes yes Thoeris 34 Strain yes no obtained from BGSC (4B4) pfam14267 35 Synthesis yes no 36 Synthesis yes no pfam12476; 37 Synthesis yes yes pfam03235 38 Synthesis no — 39 Synthesis no — COG1451 40 Synthesis yes yes 41 Synthesis yes yes COG3950 Septu 42 Strain yes SEQ yes ptuA: 434-1624 obtained ID ptuB: 1621-2394 from BGSC NO: (4K1) 12 Septu 43 Synthesis yes SEQ yes ptuA: 251-2380 ID ptuB: 2389-3276 NO: 13 Septu 44 Strain no — obtained from BGSC (6A54) COG3586 45 Strain yes yes obtained from ATCC (9945a) 46 Strain yes yes obtained from BGSC (28A4) 47 Synthesis yes yes pfam09903 48 Synthesis yes yes pfam15611; Zorya 49 Synthesis yes SEQ yes zorA: 364-2553 COG0553 ID zorB: 2567-3307 NO: zorC: 3304-4986 14 zorD: 4986-8228 Zorya 50 Synthesis yes yes Zorya 51 Strain yes SEQ yes zorA: 213-1865 obtained ID zorB: 1872-2579 from NO: zorE: 2583-3686 ATCC 15 (8739) pfam14281 52 Synthesis yes yes 53 Synthesis yes yes 54 Synthesis yes no COG1205 Druantia 55 Strain yes yes obtained from BEI Resources (NR- 32771) Druantia 56 Synthesis yes SEQ yes druA: 378-1592 (fragments) ID druB: 1614-3260 NO: druC: 3272-5155 16 druD: 5167-6210 druE: 6207-11717 Druantia 57 Synthesis yes yes (fragments) pfam13910 58 Synthesis yes yes COG4913; Wadjet 59 Synthesis yes SEQ yes jetA: 146-1552 COG4924; (fragments), ID jetB: 1562-2155 pfam11796; by Gen9 NO: jetC: 2133-5447 pfam09664; 17 jetD: 5551-6636 pfam13555 Wadjet 60 Synthesis yes SEQ yes jetA^(ii): 230-1717 ID jetB^(ii): 1717-2883 NO: jetC^(ii): 2883-6992 18 jetD^(ii): 6985-8280 Wadjet 61 Strain yes SEQ yes jetD^(iii): 444-1700 obtained ID jetA^(iii): 1676-3070 from BGSC NO: jetB^(iii): 3030-3713 (4B4) 19 jetC^(iii): 3710-6931 Controls yes yes Type III 63 Strain yes yes RM system obtained (BceSI) from ATCC (53103) Type III 64 Strain yes yes TA system obtained (ToxIN) from BGSC (4D1) Type II RM 65 Strain yes yes system obtained (BamHI) from DSMZ (DSM 7) Abi system 66 Strain yes yes (AbiH) obtained from DSMZ (DSM 9378) Type I RM 67 Strain yes yes system obtained (BliDi) from BGSC (51A1) DISARM 68 Ofir et al. yes yes 2017 Negative 69 yes yes Control

In one case (the Type I Wadjet system) the DNA was synthesized by Gen9 (Boston, Mass.) with synonymous modifications to optimize GC content. In case the donor strains were readily available the system was not synthesized but instead was directly amplified from the genomic DNA of the donor strain using KAPA HiFi HotStart ReadyMix (Kapa Biosystems KK2601) with primers as detailed in Table 5.

TABLE 5 Primers SEQ ID NO Primer Sequence (5′-3′) Description pSG1 SEQ ID OGO309 aaaGGATCCCTCTAGAGTTAACAAGAGTT Amplification of plasmid backbone containing amyE NO: 20 TGTAG integration cassette with SpecR selection in B. subtilis, and p15a ori with ampR selection for E. coli. With OGO310 SEQ ID OGO310 aaaGGCGCGCCATAAAAAACGCCCGGCG Amplification of plasmid backbone containing amyE NO: 21 GCAACCGAGCGTTCTGAATCGATCAGA integration cassette with SpecR selection in B. subtilis, and CCAGTTTTTAATTTG p15a on with ampR selection for E. coli, adding terminator and AscI site upstream to the multiple cloning site. With OGO309 SEQ ID OGO311 CTGATCGGATCCTAGAAG Amplification of the biobrick MCS from pBSC1, use with NO: 22 OGO312 SEQ ID OGO312 aaaGGCGCGCCCCCTTTTTTGCCGG Amplification of the biobrick MCS from pBSC1, adding a NO: 23 AscI site, use with OGO311 SEQ ID OSM315 GGCGCGCCATAAAAAAC pSG1 backbone used in NEBuilder reactions, use with NO: 24 OSM316 SEQ ID OSM316 GCGGCCGCGAATTC NO: 25 Primers for putative systems SEQ ID OSM319 GTTGCCGCCGGGCGTTTTTTATGGCGCG C.N. 42 to lift from strain, use with OSM320 NO: 26 CCGGGAATGCAAAAAGGAGG SEQ ID OSM320 ATCCTAGAAGCTTATCGAATTCGCGGCC NO: 27 GCATATCATCCCTCGTTTTCGTC SEQ ID OSM321 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 44 to lift from strain, use with OSM322 NO: 28 GCAGTGGATACAAAGAGTGAACG SEQ ID OSM322 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 29 CCATTCATTCTTATTCCGCTAACTTTG SEQ ID OSM325 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 45 to lift from strain, use with OSM326 NO: 30 GCGAGTTTGATCAAAGATTTGCC SEQ ID OSM326 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 31 CCATTTAATTCTGCTTATCTCCAAG SEQ ID OSM327 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 13 to lift from strain, use with OSM328 NO: 32 GCTGCATATTTATAATTGTGTGTTGAG SEQ ID OSM328 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 33 CCAGAATGGAAAGTTGAATCAACTC SEQ ID OSM333 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 65 to lift from strain, use with OSM334 NO: 34 GCACGATAAACTCGGTGTATTGAC SEQ ID OSM334 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 35 CCAAAAGCTTTCGGCATCAAAG SEQ ID OSM323 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 46 to lift from strain, use with OSM324 NO: 36 GCTGACCATTTCCCTTCTTTTTTAC SEQ ID OSM324 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 37 CCTATAACCAACTCCCAATATATGG SEQ ID OSM331 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 67 to lift from strain, use with OSM332 NO: 38 GCAACTAATAGTTTAAAACTTTACGGAT G SEQ ID OSM332 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 39 CCTATCAAGCCCCCTCATTTCA SEQ ID OSM340 atcctagaagcttatcgaattcgcggccgcTTCGTTACTT C.N. 29 to lift from strain, use with OSM341 NO: 40 CTGGGATGGG SEQ ID OSM341 gttgccgccgggcgttttttatggcgcgccTGAAAAAGA NO: 41 CTCCTCCGTATTTG SEQ ID OSM365 atcctagaagcttatcgaattcgcggccgcTAACTGGAC C.N. 34 to lift from strain, use with OSM366 NO: 42 AGTGCTCTTGG SEQ ID OSM366 gttgccgccgggcgttttttatggcgcgccATGCCGATA NO: 43 GAAGATATTGCG SEQ ID OSM342 atcctagaagcttatcgaattcgcggccgcTTCCGATAC C.N. 61 to lift from strain, use with OSM343a NO: 44 TCTTTAGCCATAA SEQ ID OSM343a gttgccgccgggcgttttttatggcgcgccACAATCACA NO: 45 TCCTTATTTTCTT SEQ ID OSM343b atcctagaagcttatcgaattcgcggccgcATCTTTTTGA C.N. 18 to lift from strain, use with OSM344 NO: 46 ATAGTTTCAATGATG SEQ ID OSM344 gttgccgccgggcgttttttatggcgcgccAGTGTGGTA NO: 47 TGGAGATTAGC SEQ ID OSM359 atcctagaagcttatcgaattcgcggccgcGTGCTTAGA C.N. 57 to lift fragment 1 from Genscript plasmid, use NO: 48 TACGAAGGG with OSM360 SEQ ID OSM360 TAGCTCATTCTCTACAAAATCC NO: 49 SEQ ID OSM361 TCGATAGAGGATTTTGTAGAG C.N. 57 to lift fragment 2 from Genscript plasmid, use NO: 50 with OSM362 SEQ ID OSM362 TTTTTGACGACCGTCTGAA NO: 51 SEQ ID OSM363 AGTTTTGCTATTTTCAGAC C.N. 57 to lift fragment 3 from Genscript plasmid, use NO: 52 with OSM364 SEQ ID OSM364 gttgccgccgggcgttttttatggcgcgccTGGTTATGG NO: 53 TTAGTATTATCTAAATT SEQ ID OSM402 TAGAGCAAATACCTGATCTGG C.N. 55 to lift fragment 1 from strain, use with OSM371 NO: 54 SEQ ID OSM371 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 55 CCAGCGGTAAGTTTTATAGAAAAT SEQ ID OSM403 TCTCTTAGATCCAGATCAGG C.N. 55 to lift fragment 2 from strain, use with OSM370 NO: 56 SEQ ID OSM370 ATCCTAGAAGCTTATCGAATTCGCGGCC NO: 57 GCAGGGGGGATATAGATTTATATATAA T SEQ ID OSM335 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 25 to lift from strain, use with OSM336 NO: 58 GCACAAGATACATCACATTGAAGG SEQ ID OSM336 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 59 CCCAATATATGCGATATACGCAAAAAC SEQ ID OSM329 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 64 to lift from strain, use with OSM330 NO: 60 GCACAAATGGGCAGAGAGAG SEQ ID OSM330 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 61 CCGATATTTCATTTTCTTCTTCCTCTCAC SEQ ID OSM420 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 66 to lift from strain, use with OSM421 NO: 62 GCGGTGAATGTAAAAATATTGATACAG SEQ ID OSM421 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 63 CCAATTTAGTCCTCCTGGGG SEQ ID OSM31 tgagttgattgcagtccagttac C.N. 59 to lift fragment 1 from Gen9 construct, use with NO: 64 OSM32 SEQ ID OSM32 GTTACCACCTACTATCTCTTCAGC NO: 65 SEQ ID OSM33 TCTTTAGCTGAAGAGATAGTAGGTG C.N. 59 to lift fragment 2 from Gen9 construct, use with NO: 66 OSM34 SEQ ID OSM34 tatggaggtcaggtatgatttaaatg NO: 67 SEQ ID 0G0242 catcactgaccatttaaatcatacctgacctccataCGAATG p15-pDR110 backbone for C.N. 59, use with OSM28 NO: 68 GCGATTTTCGTTCGTG SEQ ID OSM28 gcttgactccagcgtaactggactgcaatcaactcaCGATC NO: 69 AGACCAGTTTTTAAT SEQ ID OSM386 ATCCTAGAAGCTTATCGAATTC C.N. 56 to lift fragment 1 from Genscript plasmid, use NO: 70 with OSM387 SEQ ID OSM387 ATGTCATTCATAGCCAGAGC NO: 71 SEQ ID OSM388 AGATTTTAATGCTCTGGCTA C.N. 56 to lift fragment 2 from Genscript plasmid, use NO: 72 with OSM389 SEQ ID OSM389 CTCATCTTCTGATAATGGTCC NO: 73 SEQ ID OSM390 CAGCCGAACGGACCATT C.N. 56 to lift fragment 3 from Genscript plasmid, use NO: 74 with OSM391 SEQ ID OSM391 GTTGCCGCCGGGCGT NO: 75 SEQ ID OLA489 ATCCTAGAAGCTTATCGAATTCGCGGCC C.N. 51 to lift from strain, use with OLA490 NO: 76 GCACCTGCCTTCCTTTGATACAATTC SEQ ID OLA490 GTTGCCGCCGGGCGTTTTTTATGGCGCG NO: 77 CCTCAATTTATTGCTTTATTCATTGTGAC TG

For long systems (>10000 bases) when the donor strain was not available, the system was commercially synthesized in overlapping fragments (Table 4, “Cloning method” column). Systems amplified from genomic DNA or ordered as overlapping fragments were cloned into pSG1-rfp between the AscI and NotI sites using NEBuilder HiFI DNA Assembly cloning kit (NEB E5520S). The full list of sources used for cloning the systems into our model organisms is found in Table 4, including accessions of all strains ordered.

Transformation to B. subtilis was performed using MC medium as previously described (Wilson G A, Bott K F. (1968) Nutritional factors influencing the development of competence in the Bacillus subtilis transformation system. J Bacteriol. 95: 1439-49). MC medium was composed of 80 mM K₂HPO₄, 30 mM KH₂PO₄, 2% Glucose, 30 mM Trisodium citrate, 22 μg/ml Ferric ammonium citrate, 0.1% Casein Hydrolysate (CAA), 0.2% potassium glutamate. From an overnight starter of bacteria, 10 μl were diluted in 1 ml of MC medium supplemented with 10 μl 1M MgSO₄. After 3 hours of incubation (37° C., 200 rpm), 300 μl was transferred to a new 15 ml tube and ˜200 ng of plasmid DNA was added. The tube was incubated for another 3 hours (37° C., 200 rpm), and the entire reaction was plated on LB agar plates supplemented with 100 μg/ml spectinomycin and incubated overnight at 30° C.

For systems to be tested on E. coli, the cloned vector was transformed into E. coli MG1655 cells (ATCC 47076), and the resulting transformants were verified by PCR. For systems to be tested in B. subtilis, the cloned vector was transformed into B. subtilis BEST7003 cells. The system was integrated into the amyE locus, and resulting transformants were screened on starch plates for amylase-deficient phenotype. Whole-genome sequencing was then applied to all transformed B. subtilis and E. coli clones as described in (Ofir G, Melamed S, Sberro H, Silverman S, Doron S, Yaakov G, Mukamel Z, Sorek R. (2017) DISARM, a novel bacterial defense system with broad anti-phage activities. ibid) to verify system's integrity and lack of mutations.

As a negative control for transformation into B. subtilis, a transformant with an empty plasmid, containing only the spectinomycin resistance gene in the amyE locus, was used. As a negative control for transformation into E. coli, the wild-type E. coli MG1655 carrying an empty plasmid was used.

For strains with gene deletions and point mutations, plasmids containing systems with these deletions/mutations were commercially synthesized by Genscript. The mutated systems were transformed into B. subtilis and E. coli as described above, and clones used were fully sequenced to verify proper integration and sequence of the mutated systems.

Phage Strains, Cultivation, and Plaque Assay

The following B. subtilis phages were obtained from the Bacillus Genetic Stock Center (BGSC): SPO1 (BGSCID 1P4), phi3T (BGSCID 1L1), SPβ (BGSCID 1L5), SPR (BGSCID 1L56), phi105 (BGSCID 1L11), rho14 (BGSCID 1L15), and SPP1 (BGSCID 1P7). Phage phi29 was obtained from the DSMZ (DSM 5546). Phages SBSphiJ and SBSphiC were isolated by us from mixed soil and leaves samples on B. subtilis BEST7003. For this, soil and leaves samples were added to a log phase B. subtilis BEST7003 culture and incubated overnight to enrich for B. subtilis phages. The enriched sample was centrifuged and filtered through 0.2 μm filters, and the filtered supernatant was used to perform double layer plaque assays as described in Kropinski et al. (Kropinski A M, Mazzocco A, Waddell T E, Lingohr E, Johnson R P. Enumeration of Bacteriophages by Double Agar Overlay Plaque Assay. In: Clokie M R J, Kropinski A M, editors. Bacteriophages: Methods and protocols. NY: Humana Press; 2009. pp. 69-76). Single plaques that appeared after overnight incubation were picked, re-isolated 3 times, and amplified as described below.

E. coli phages (T4, T7, lambda-vir) were kindly provided by U. Qimron. Phages SECphi17, SECphi18 and SECphi27 were isolated as described in Wommack et al. (Wommack K E, Williamson K E, Helton R R, Bench S R, Winget D M. Methods for the Isolation of Viruses from Environmental Samples. In: Clokie M R J, Kropinski A M, editors. Bacteriophages: Methods and protocols. NY: Humana Press; 2009. pp. 3-14) from sewage samples on E. coli MG1655. 0.2 μm filtered concentrated sewage samples were used to perform double layer plaque assays, individual plaques were picked, re-isolated 3 times, and amplified as described below.

All phages isolated by us were Illumina sequenced following a library prep using the Nextera protocol (Baym M, Kryazhimskiy S, Lieberman T D, Chung H, Desai M M, Kishony R. (2015) Inexpensive multiplexed library preparation for megabase-sized genomes. PLoS One. 10: e0128036) and assembled using SPAdes v. 3.10.1 using the -careful and -cov-cutoff auto modifiers (Bankevich et al. (2012) A New Genome Assembly Algorithm and Its Applications to Single-Cell Sequencing. J Comput Biol.; 19: 455-477. doi:10.1089/cmb.2012.0021). Assembled genomes and raw reads were deposited in the European Nucleotide Archive (ENA) under study accession PRJEB23070. Phage classification was done according to sequence homology to the closest known similar phage. Phage SECphi17 (ENA ERS1981053) has a 5,538 bp genome and its closest relative is Coliphage WA3 (GenBank DQ079897.1, 66% coverage, 81% identity), indicating it is an ssDNA phage of the Microviridae family. Phage SECphi18 (ENA ERS1981054) has a 44,798 bp genome and its closest relative is Escherichia phage Gluttony (GenBank KX534336.1, 92% coverage, 93% identity), indicating it is a member of the Siphoviridae family. Phage SECphi27 (ENA ERS1981055) has a 51,811 bp genome, and its closest relative is Escherichia phage vB_Eco_swan01 (GenBank LT841304.1, 91% coverage, 98% identity), indicating it is a member of the Siphoviridae family. Phage SBSphiJ (ENA ERS1981056) has a 156,875 bp genome, and its closest relative is Bacillus phage Grass (GenBank KF669652.1, 91% coverage, 95% identity), indicating it is a member of the family Myoviridae. Phage SBSphiC (ENA ERS1981057) has a 144,651 bp genome, and its closest relative is Bacillus phage SP10 (GenBank AB605730.1, 94% coverage, 90% identity), indicating it is a member of the Myoviridae family. Siphoviridae and Myoviridae phage morphologies were verified by electron microscopy (EM). For the EM experiments, phage lysates were blotted onto copper grids, stained using uranyl acetate 2%, and visualized in FEI Tecnai T12 transmitting electron microscope.

Phages were propagated on either E. coli MG1655 or B. subtilis BEST7003 using the plate lysate method as previously described (Fortier L-C, Moineau S. (2009) Phage production and maintenance of stocks, including expected stock lifetimes. Methods Mol Biol. 501: 203-19). Lysate titer was determined using the small drop plaque assay method as previously described (Mazzocco A, Waddell T E, Lingohr E, Johnson R P. (2009) Enumeration of bacteriophages using the small drop plaque assay system. [Internet]. Methods in molecular biology (Clifton, N.J.). pp. 81-5). Bacteria were mixed with MMB agar (LB+0.1 mM MnCl₂+5 mM MgCl₂+5 mM CaCl₂+0.5% agar), and serial dilutions of phage lysate in MMB were dropped on top of them. After the drops dried up, plates were incubated at room temperature overnight. Efficiency of plating (EOP) was measured by performing small drop plaque assay with the same phage lysate on control bacteria and bacteria containing the candidate defense system, and comparing the ratio of plaque formation.

To determine the number of infective centers during infection with T7 phage of control bacteria and bacteria containing type I or type II Zorya (Defense Systems Ia and Ib, respectively), a modified version of the technique described in (Sing et al., (19909) J. Gen. Microbiol. 136:807-1815) as used. Zorya-lacking E. coli MG1655 or Zorya-containing cells were infected with T7 phage at MOI 0.05 and incubated for 10 min at 37° C. to allow adsorption. Cells with adsorbed phages were then centrifuged (1 min, 14,000 rpm) at 4° C., washed once with ice-cold MMB medium, and resuspended in 200 mlice-cold MMB medium. Then, 100 ml aliquots of 10-fold dilutions of resuspended phage-infected cells were mixed with 100 ml of a Zorya-lacking E. coli MG1655 culture grown to O.D. 0.3. The mixture was plated using the double agar over-lay method and infection centers (plaques) were counted after overnight incubation in room temperature.

For the liquid culture infection with T7 phage, overnight cultures of Zorya-lacking E. coli MG1655 or Zorya-containing cells were diluted 1:100 in MMB medium. 180 ml volumes of the diluted culture were dispersed into wells in a 96-well plate and grown at 37° C. with vigorous shaking until early log phase (O.D.600 0.3). 20 mlofT7 phage lysate were added at multiplicities of infection 0.05, 0.5 and 5 in three replicates. Optical density measurements at a wavelength of 600 nm were taken every 15 min using a TECAN Infinite 200 plate reader in a 96-well plate.

Transformation Efficiency Assay

Transformation was performed using the MC medium as described above. To test plasmid transformation efficiency, the episomal Bacillus plasmid pHCMC05 was used (Titok M., Chapuis J, Selezneva Y., Lagodich A., Prokulevich V., Ehrlich S., Jannière L. (2003) Bacillus subtilis soil isolates: plasmid replicon analysis and construction of a new theta-replicating vector. Plasmid. 49: 53-62). Transformation efficiency was calculated by dividing the number of transformants that grew on LB plates containing 5 μg/ml chloramphenicol by the live count on LB plates.

DNA-Seq and RNA-Seq

DNA was extracted from bacteria using Qiagen DNeasy blood and tissue kit (Qiagen 69504). DNA libraries were constructed using the Nextera library preparation protocol as previously published (Baym M, Kryazhimskiy S, Lieberman T D, Chung H, Desai M M, Kishony R. (2015) Inexpensive multiplexed library preparation for megabase-sized genomes. PLoS One. 10: e0128036). RNA-seq was performed with the NEBNext Ultra Directional RNA Library Prep Kit (NEB, E7420) according to the manufacturer's instructions with modifications as previously described (Dar D, Shamir M, Mellin J R, Koutero M, Stern-Ginossar N, Cossart P, Sorek R. (2016) Term-seq reveals abundant ribo-regulation of antibiotics resistance in bacteria. Science. 352: aad9822-aad9822). Prior to library preparation, equal amounts of extracted RNA from 3-7 strain samples were pooled together and processed as a single library. All libraries were sequenced using the Illumina NextSeq500. The sequencing reads were aligned to the reference genomes of B. subtilis BEST7003 (Genbank: AP012496) and E. coli MG1655 (Genbank: NC_000913), and to the plasmid sequence of each system, using Novoalign 3.02.02 (Novocraft Technologies Sdn Bhd, http://www.novocraft.com) with the default parameters and [-r Random]. The coverage along the reference genomes was calculated, to check if each system exists in the genome (DNA-seq) or expressed (RNA-seq). The pooled RNA library was sequenced to a depth of 5 million reads per sample and later aligned to the reference genomes as described.

Example 1 Identification of New Bacterial Defense Systems

Objective:

To comprehensively identify new defense systems enriched within defense islands, in an attempt to systematically map the arsenal of defense systems that are at the disposal of bacteria and archaea in their fight against phages. Anti-phage defense systems were found to be frequently physically clustered in bacterial and archaeal genomes such that, for example, genes comprising restriction enzymes commonly reside in the vicinity of genes comprising infection systems and other phage resistance systems. The observation that defense systems are clustered in genomic “defense islands” has led to the suggestion that genes of unknown function residing within such defense islands may also participate in anti-phage defense.

Methods:

The first step in this discovery effort was to identify gene families that are enriched near known defense systems in the microbial pan-genome (FIG. 1A). For this, 14,083 protein families (pfams) were analyzed in >45,000 available bacterial and archaeal genomes (overall comprising >120 million genes). Each pfam represents a set of genes sharing a common protein domain. For each pfam, the prevalence of its member genes to reside in the vicinity (10 genes from each side) of one or more known defense genes was calculated (FIG. 1B). Pfams were selected that had at least 65% of their member genes found next to defense genes, and that their member genes appeared in diverse defense contexts in different genomes (at least 10% variability; FIG. 1B). These thresholds were selected as they capture the majority of pfams that comprise known defense systems (FIGS. 1A-1C; Table 1). The resulting set of 277 candidate pfams was supplemented by 58 additional gene families that were previously predicted to be associated with known defense systems (Makarova K S, Wolf Y I, Snir S, Koonin E V. (2011) Defense islands in bacterial and archaeal genomes and prediction of novel defense systems. J Bacteriol. 193: 6039-56), altogether yielding a list of 335 candidate gene families (Table 2).

To check whether the defense-associated pfams belong to multi-gene systems, each such pfam was used as an anchor around which commonly associated genes were searched for (FIG. 1A). For this, all the neighboring genes (10 genes from each side) from all the genomes in which members of the anchor pfam occurred were collected, and these genes were clustered based on sequence homology. Cassettes of gene clusters were then searched for that showed conserved order across multiple different genomes, marking such cassettes as candidate multi-gene systems (FIG. 1A).

Results:

The gene annotations in the resulting candidate systems were manually inspected in order to filter out likely false predictions. It was found that 39% of the cases represented non-defense, mobile genetic elements that are known to co-localize to defense islands (Table 2). Additionally, 30% of the resulting candidate defense systems found represented known defense systems whose pfams were not included in the original set of known defense pfams, and 17% belonged to operons probably performing metabolic functions or other functions not associated with defense (FIGS. 2A and 2B).

The remaining systems possibly represent putative new defense systems. To expand the predictions with new pfams that may be specifically enriched next to the putative new defense systems, a second prediction cycle was performed, this time adding the members of the predicted new systems to the positive defense pfam set (FIG. 1A).

Altogether, 41 candidate single-gene or multi-gene systems were retrieved from this analysis (Table 3). This set of systems was further filtered to remove systems that were largely confined to a specific clade (e.g., systems appearing only in cyanobacteria or only in actinobacteria), resulting in a set of 28 candidate systems that showed broad phylogenetic distribution.

Example 2 Verification of New Bacterial Defense Systems

Objective:

To experimentally verify the candidate defense systems identified in Example 1, as having defense system activity.

Methods:

Two bacteria strains were selected for verification of candidate defense systems, Escherichia coli str. MG1655 and Bacillus subtilis str. BEST7003. These bacteria were utilized as models to experimentally examine whether the predicted systems confer defense against phage (FIG. 3A). None of the candidate new systems are naturally present in the genomes of these two bacteria. For each candidate system, source organisms were selected from which the system was taken and heterologously cloned into one of the model organisms. To increase the probability that the cloned system would be compatible and functionally expressed within the receiving bacterium, systems were selected from mesophilic organisms as close phylogenetically as possible to E. coli or to B. subtilis, and included the upstream and downstream intergenic regions so that promoters, terminators or other regulatory sequences would be preserved. Where possible at least two instances of each system were used (from two different source genomes), to account for the possibility that some systems may not be active in their source organism. The DNA of each system, spanning the predicted genes and the intergenic spaces, was synthesized or amplified from the source genome (donor species) and cloned either to E. coli (on a plasmid) or to B. subtilis (genomically integrated). As a control, the procedure was repeated with 5 known defense systems (instances of types I, II and III R-M systems, type III toxin/antitoxin system and an infection gene of the AbiH family) for which source organisms were similarly selected and cloning was performed into B. subtilis, as well a 6^(th) control comprised of the recently discovered DISARM defense system.

Results:

Altogether, heterologously cloning of 61 representative instances of the 28 candidate new systems was attempted, and successful cloning was verified by whole genome sequencing (Table 4). For 27 of these 28 systems there was at least one candidate locus for which cloning was successful, and RNA-seq of the transformants showed that for 26 of the systems, at least one of the candidates was expressed in the receiving E. coli or B. subtilis strain.

The engineered bacteria were then challenged by an array of phages consisting of 10 B. subtilis and 6 E. coli phages, spanning the three major families of tailed dsDNA phages (myo-, sipho- and podo-phages), as well as one ssDNA phage infecting E. coli (FIGS. 3B, 3C, and 3D). Measuring phage efficiency of plating (EOP) on system-containing bacteria vs. control cells, it was found that 9 of the 26 tested systems (35%) showed protection from infection by at least one phage (FIGS. 3B, 3C, 3D, 3E, and 3F). In comparison, three of the six positive control systems showed defense, with the remaining 3 showing no protection against the 10 B. subtilis phages tested.

The 9 verified new systems were named after protective deities from various world mythologies. These defense systems are comprised of between 1 and 5 genes and span between 2 and 12 kb of genomic DNA (Table 6; Table 7).

TABLE 6 Composition of Defense Systems Reported No. (%) # of of instances genomes detected in which within system System Operon Associated domains Domain annotations microbes is found comments Thoeris ThsAB pfam13289, pfam14519, SIR2, Macro domain, 2,099 2070 Membrane pfam08937, pfam13676 TIR domain (4.0%) associated (sometime) Hachiman HamAB pfam08878, COG1204, Helicase 1,781 1742 pfam00270, pfam0271 (3.4%) Shedu SduA pfam14082 Nuclease 1,246 1191 (2.3%) Gabija GajAB pfam13175, COG3593, ATPase, helicase, 4,598 4360 pfam13361, pfam00580, nuclease (8.5)% COG0210, pfam13245 Septu PtuAB pfam13304, COG3950, ATPase, HNH nuclease 2,506 2117 pfam13395, pfam01844 (4.1%) Lamassu LmuAB pfam14130, pfam02463 SMC ATPase N-terminal 697 682 domain (1.3%) Zorya ZorABCD pfam01618, pfam13677, MotA/ExbB, MotB, 1,173 1055 Membrane (type I) pfam00691, COG1360, helicase, Mrr-like (2.1%) associated pfam15611, pfam00176, nuclease pfam00271, COG0553, pfam04471 Zorya ZorABE pfam01618, pfam13677, MotA/ExbB, MotB, 656 655 Membrane (type II) pfam00691, COG1360, HNH nuclease (1.3%) associated COG3183, pfam01844 Kiwa KwaAB pfam16162 No annotated domain 934 924 Membrane (1.8%) associated Druantia DruABC pfam14236, pfam00270, Helicase, methylase 1,342 1321 DE (type pfam00271, pfam09369, (2.6%) I) pfam00145, COG1205, DruMFG COG0270 E (type II) DruHE (III) Wadjet JetABCD pfam11855, pfam09660, MukBEF condensin, 3,173 2880 pfam13835, pfam09661, topoisomerase VI (5.6%) pfam13555, pfam13558, COG4913, COG1196, pfam11795, pfam09983, pfam11796, pfam09664, COG4924

TABLE 7 Verified Defense Systems Median Associated gene size System Genes domains Domain annotation (aa) Comment Thoeris ThsA pfam13289, Sir2/Macro domain 477 In some cases N- pfam14519 (NAD binding) terminal transmembrane helices ThsB pfam08937 TIR domain 195 Often multiple ThsB genes in the locus Hachiman HamA pfam08878 Unknown function 269 (DUF1837) HamB COG1204, Helicase 867 pfam00270, pfam00271 Shedu SduA pfam14082 Endonuclease NucS 367 (DUF4263), pfam01939 Gabija GajA pfam13175, ATPase domain, 670 COG3593 Predicted ATP- dependent endonuclease GajB pfam04257, UvrD helicase 598 pfam00580- pfam13361 Septu PtuA pfam13304, AAA domain, 452 In some cases has pfam02463 RecF/RecN/SMC N N-terminal terminal domain predicted HNH nuclease domain PtuB pfam13395, HNH endonuclease 219 pfam01844 Lamassu LmuA pfam14130 Unknown function 361 (DUF4297) LmuB pfam02463 RecF/RecN/SMC N 559 terminal domain Zorya ZorA pfam01618 MotA/ExbB/TolQ 550 Predicted type I transmembrane helices ZorB pfam13677- MotB 217 Predicted pfam00691 transmembrane helix ZorC pfam15611 EH signature 470 ZorD pfam00176- SWI2/SNF2 helicase 1080 pfam00271 Zorya ZorE COG3183, HNH endonuclease 367 type II pfam01844 Kiwa KwaA No domain 194 Predicted annotation transmembrane helices KwaB pfam16162 Unknown function 315 (DUF4868) Druantia DruA pfam14236 Unknown function 404 type I (DUF4338) DruB No domain 531 annotation DruC No domain 627 annotation DruD No domain 347 annotation DruE pfam00270, Helicase 2104 pfam00271, pfam09369 (DUF1998) Druantia DruM pfam00145, Cytosine methylase 386 type II COG0270 DruF No domain 852 annotation DruG No domain 711 annotation Druantia DruH No domain 1079 type III annotation Wadjet JetA pfam11855 Unknown functions 488 MukF-like (DUF3375)/ pfam09660 (DUF2397) JetB pfam13835 Unknown functions 247 MukE-like (DUF4194)/ pfam09661 (DUF2398) JetC pfam13555- ATP binding domain, 1476 MukB-like pfam13558 Putative exonuclease SbcC JetD pfam11795 Unknown functions 347 Topoisomerase VI (DUF3322)- predicted by pfam09983 structural (DUF2220)/ similarities pfam11796 (DUF3323)- pfam09664 (DUF2399)

Where possible, system consistency was verified by testing for phage resistance in systems where individual genes were deleted (FIG. 3G). We found between several hundreds and several thousand representations of each of the defense systems in sequenced microbial genomes, usually with broad phylogenetic distribution (FIG. 3H; Tables 8-17). Most systems were detected in >10 taxonomic phyla, and 7 of them appear in archaea (FIG. 3H).

Some of the systems seem to target a specific class of phages (e.g., the Thoeris system appears to specifically protect from myophages), while others, such as the Hachiman system, provide broader defense (FIG. 3B). The genes comprising the new systems encode many protein domains that are commonly present in antiviral systems such as CRISPR-Cas and RNAi, including helicases, nucleases, and nucleic acid binding domains, in addition to many domains of unknown function and also atypical domains as described herein. Three of the systems contain membrane-associated proteins as predicted by the presence of multiple transmembrane helices. Further functional analyses was performed for a selected set of systems.

Example 3 Genomic Identification and Analysis of the ZORYA System

Objective:

Identify the candidate defense system based on the enrichment of the anchor pfam15611.

Method:

ZORYA was one of the systems identified in the first round of prediction. The anchor gene family for ZORYA was pfam15611. This pfam had a defense score of 0.98 and a diversity score of 0.55.

Cloning of ZORYA into E. coli MG1655—A cloning vector for large fragments was constructed by assembling the p15a origin of replication (ori) from pACYCDuet-1 and the amyE integration cassette from plasmid pDR110 (see https://www(dot)ncbi(dot)nlm(dot)nih(dot)gov/pmc/articles/PMC3814332/#pgen.1003892.s005). The p15a ori was amplified using primers OGO174+OGO175 (a list of all primers is provided in Table 5). The amyE integration cassette was amplified using primers OGO176+OGO185. The two fragments were assembled and transformed into E. coli cells using Gibson assembly cloning kit (NEB E5510S), and assembled plasmids were verified by restriction pattern and full sequencing.

The backbone of the above described vector was amplified using primers OGO309+OGO310, adding to it a BamHI restriction site and a terminator site. The multiple cloning site of plasmid pBS1C (received from the BGSC) was amplified using primers OGO311+OGO312. Both fragments were digested using AscI and BamHI, ligated using T4 ligase and transformed into E. coli, resulting in plasmid pSG1-rfp. The plasmid was digestion verified and fully sequenced.

A representative ZORYA operon (locus) from E. coli E24377A (RefSeq accession NC_009801, coordinates 298890-307639 of the reverse strand, SEQ ID NO: XXXX) was commercially synthesized (GenScript) directly into pSG1-rfp between the AscI and NotI sites of the multiple cloning site. The cloned vector was transformed into E. coli MG1655 cells, and the resulting transformants were verified by PCR and whole genome sequencing.

Phage cultivation and plaque assays have been described above.

For analysis in solid cultures, Zorya-containing cells (Defense System Ia or Defense System Ib) were infected with T7 phage at MOI 0.05 and were incubated for 10 min at 37° C. to allow phage adsorption (FIG. 4G). Cells with adsorbed phages were then centrifuged and washed to eliminate unabsorbed phages. These T7-infected cells were mixed together with E. coli MG1655 cells that lacked a Zorya defense system, and the mixture was plated using an agar overlay method. Phage bursts from successful infections were visualized as a single infection center on a lawn from the T7-sensitive E. coli strain, enabling an evaluation of the number of phages that have adsorbed and completed a successful infection cycle. For analysis in liquid cultures, T7 infection in liquid cultures of E. coli cells containing type I (FIG. 4H) and type II (FIG. 4I) Zorya. Bacteria were infected at t=0 at multiplicities of infection (MOI) of 0.05, 0.5 and 5.

Results:

The Zorya system (named after a deity from the Slavic mythology) was identified based on the enrichment of the anchor pfam15611, representing a domain of unknown function, within defense islands. Pfam15611-containing gene clusters were previously reported as genomically associated with tellurium- and stress-resistance genes.

The computational analysis found this pfam to be part of a 4-gene system, zorABCD comprising ZorA, ZorB, ZorC, and ZorD polypeptides. Overall the ZORYA gene system encompasses ˜9 kb of DNA, with pfam15611 being the third gene in the system (zorC; FIG. 3C, and FIGS. 4A and 4B; Table 6). Initially 262 appearances of the ZORYA system were found in the dataset that was used in the automatic prediction.

A representative ZORYA operon from E. coli E24377A was cloned into E. coli MG1655 (FIG. 4C), which does not contain an endogenous ZORYA system. The correct insertion of the system into the E. coli MG1655 genome was verified by whole genome sequencing.

In the next step, the E. coli MG1655 containing the ZORYA system (type I) was challenged with phage from three families of the dsDNA tail phages Caudavirales: T4 of Myoviridae, T7 of the Podoviridae, and Lambda of the Siphoviridae. T4 and T7 are obligatory lytic phages, while Lambda is a temperate phage. In addition to the wild-type Lambda phage (lambda-wt), a mutant that is an obligatory lytic phage was also used (lambda-vir). The results showed that the type I ZORYA system provided protection against T7 phage (2-3 orders of magnitude), and lambda-vir phage (at least 2 orders of magnitude), manifested by reduction in plaque formation on the ZORYA-containing strains (FIG. 3E). Further analysis showed that the type I ZORYA system provided 10-10000-fold protection against infection by T7, SECphi27, and lambda-vir phages (FIGS. 3C and 3F). Further searches based on homologies to the first two genes in the system, zorA and zorB, revealed a second type of ZORYA, comprised of the 3 genes zorABE. (FIGS. 4D and 4E). A Type II Zorya system was cloned from E. coli ATCC8739 into E. coli MG1655 and yielded 10,000-fold defense against T7 and 10-fold against the ssDNA phage SECphi17 (FIG. 3C and FIGS. 4B and 4C).

The first two genes of the Zorya system, zorA and zorB, contain protein domains sharing sequence homology with motA and motB, respectively (FIG. 4B). MotA and MotB are inner membrane proteins that are part of the flagellar motor of bacteria. They assemble into a MotAB complex, which forms the stator of the flagellar motor (the static part within which the flagellar rotor swivels). The MotAB complex also forms the proton channel that provides the energy for flagellar rotation, coupling transport of protons into the cell with the rotation (FIG. 4F). While zorB shares the same size and domain organization with motB (including the pfam13677 and pfam00691 domains), zorA contains, in addition to the MotA domain (pfam01618), also a long C-terminal helical domain that is sometime identified as a “methyl-accepting chemotaxis domain” (COG0840). In addition to these two genes, Type I Zorya contains zorC, a gene of unknown function, and zorD, which is a large gene (encoding a ˜1200aa polypeptide) comprising a helicase domain. Type II Zorya lacks zorC and zorD and instead contains zorE, a smaller gene comprising an HNH-endonuclease domain.

Analysis of the Zorya Defense Systems was performed by performing phage infection of Zorya Defense System-containing bacteria cells (Defense System Ia or Defense System Ib) in solid and liquid cultures. Three replicates of cells containing type I Zorya, type II Zorya or no Zorya defense system are shown in FIGS. 4G-4I; data represent, for each replicate, the number of derived infection centers as a fraction from the average number of infection centers derived from Zorya-lacking (“No Zorya”) cells (see Methods). The results show that in cells containing a type I Zorya defense system, only an average of 17% of infection events lead to successful phage progeny, while in cells containing a type II Zorya defense system, 6% of the infected cells yield successful phage bursts. (FIG. 4G) For liquid culture infection, shown are three replicates for each MOI, with each curve showing an individual replicate. The delayed collapse of Zorya-containing cultures suggests that most of the infected Zorya-containing cells undergo abortive infection, while a minority of cells produces viable phage progeny, which eventually accumulate to a high MOI leading to a culture collapse.

Conclusion:

The Zorya defense system was identified in 1829 instances within 1663 sequenced bacterial genomes belonging to 12 phyla, marking this system as prevalent in at least 3% of sequenced bacteria (Table 8).

TABLE 8 ZORYA Defense System and Components Thereof This table is presented in landscape orientation. Due to the number of columns, the table has been split into parts. Part A includes the first set of columns and therefore should be place to the left of subsequent parts (Part B and where relevant Part C). To avoid any doubt, the rows of the table in each part line up once the tables are placed together. (Part A) A B C D E F G 1 assembly_accession taxid species_taxid organism_name infraspecific_name phylum genomic_accession 2 GCA_000017645.1 78245 280 Xanthobacter autotrophicus Py2 Py2 Proteobacteria CP000781.1 3 GCA_000761245.1 285 285 Comamonas testosteroni JL40 Proteobacteria AWOR01000012.1 4 GCA_000017205.1 381754 287 Pseudomonas aeruginosa PA7 PA7 Proteobacteria CP000744.1 5 GCA_000259025.1 1134459 287 Pseudomonas aeruginosa PADK2_CF510 PADK2_CF510 Proteobacteria AJHI01000009.1 6 GCA_000297315.1 1163394 287 Pseudomonas aeruginosa ATCC 700888 ATCC 700888 Proteobacteria AKZF01000392.1 7 GCA_000297355.1 1163395 287 Pseudomonas aeruginosa E2 E2 Proteobacteria AKZH01000152.1 8 GCA_000399805.1 1315978 287 Pseudomonas aeruginosa VRFPA02 VRFPA02 Proteobacteria AQHM01000100.1 9 GCA_000467675.1 1350465 287 Pseudomonas aeruginosa VRFPA03 VRFPA03 Proteobacteria ATNK01000038.1 10 GCA_000480705.1 1402563 287 Pseudomonas aeruginosa BL22 BL22 Proteobacteria KI518786.1 11 GCA_000480725.1 1402562 287 Pseudomonas aeruginosa BL21 BL21 Proteobacteria KI518793.1 12 GCA_000480745.1 1402561 287 Pseudomonas aeruginosa BL20 BL20 Proteobacteria KI518807.1 13 GCA_000480965.1 1402550 287 Pseudomonas aeruginosa BL09 BL09 Proteobacteria KI518889.1 14 GCA_000481705.1 1402500 287 Pseudomonas aeruginosa X13273 X13273 Proteobacteria KI519199.1 15 GCA_000481765.1 1402497 287 Pseudomonas aeruginosa 19660 19660 Proteobacteria KI519236.1 16 GCA_000481825.1 1402494 287 Pseudomonas aeruginosa S54485 S54485 Proteobacteria KI519256.1 17 GCA_000482005.1 1163395 287 Pseudomonas aeruginosa E2 E2 Proteobacteria KI519307.1 18 GCA_000496325.1 1408193 287 Pseudomonas aeruginosa VRFPA05 VRFPA05 Proteobacteria AXZJ01000095.1 19 GCA_000520195.1 1402581 287 Pseudomonas aeruginosa PS42 PS42 Proteobacteria KI914449.1 20 GCA_000531435.1 1407059 287 Pseudomonas aeruginosa PA38182 PA38182 Proteobacteria HG530068.1 21 GCA_000531435.1 1407059 287 Pseudomonas aeruginosa PA38182 PA38182 Proteobacteria HG530068.1 22 GCA_000558345.1 1441931 287 Pseudomonas aeruginosa VRFPA09 VRFPA09 Proteobacteria JAAO01000047.1 23 GCA_000611995.2 1437873 287 Pseudomonas aeruginosa PA99 PA99 Proteobacteria KK111873.1 24 GCA_000629065.1 1447541 287 Pseudomonas aeruginosa BWH033 BWH033 Proteobacteria KK212100.1 25 GCA_000629285.1 1447530 287 Pseudomonas aeruginosa 3575 3575 Proteobacteria KK212903.1 26 GCA_000629505.1 1418240 287 Pseudomonas aeruginosa BWH054 BWH054 Proteobacteria KK213223.1 27 GCA_000689435.1 1336203 287 Pseudomonas aeruginosa MH38 MH38 Proteobacteria CBTQ010000132.1 28 GCA_000689435.1 1336203 287 Pseudomonas aeruginosa MH38 MH38 Proteobacteria CBTQ010000056.1 29 GCA_000705175.1 1441459 287 Pseudomonas aeruginosa C2773C C2773C Proteobacteria JGZW01000198.1 30 GCA_000829885.1 287 287 Pseudomonas aeruginosa FRD1 Proteobacteria CP010555.1 31 GCA_000981825.1 287 287 Pseudomonas aeruginosa Carb01 63 Proteobacteria CP011317.1 32 GCA_000981825.1 287 287 Pseudomonas aeruginosa Carb01 63 Proteobacteria CP011317.1 33 GCA_001180345.1 287 287 Pseudomonas aeruginosa P1_London_28_IMP_1_04_05 Proteobacteria CVUY01000300.1 34 GCA_001180345.1 287 287 Pseudomonas aeruginosa P1_London_28_IMP_1_04_05 Proteobacteria CVUY01000281.1 35 GCA_001180365.1 287 287 Pseudomonas aeruginosa P2_London_28_IMP_1_06_05 Proteobacteria CVWC01000358.1 36 GCA_001180365.1 287 287 Pseudomonas aeruginosa P2_London_28_IMP_1_06_05 Proteobacteria CVWC01000094.1 37 GCA_001180385.1 287 287 Pseudomonas aeruginosa P3_North_West_16_VIM_2_07_06 Proteobacteria CVVV01000260.1 38 GCA_001180385.1 287 287 Pseudomonas aeruginosa P3_North_West_16_VIM_2_07_06 Proteobacteria CVVV01000250.1 39 GCA_001180405.1 287 287 Pseudomonas aeruginosa P4_London_1_VIM_2_10_07 Proteobacteria CVWA01000298.1 40 GCA_001180405.1 287 287 Pseudomonas aeruginosa P4_London_1_VIM_2_10_07 Proteobacteria CVWA01000358.1 41 GCA_001180425.1 287 287 Pseudomonas aeruginosa P5_London_26_VIM_2_01_09 Proteobacteria CVWS01000233.1 42 GCA_001180445.1 287 287 Pseudomonas aeruginosa E1_London_17_VIM_2_02_09 Proteobacteria CWGH01000216.1 43 GCA_001180445.1 287 287 Pseudomonas aeruginosa E1_London_17_VIM_2_02_09 Proteobacteria CWGH01000243.1 44 GCA_001180465.1 287 287 Pseudomonas aeruginosa E2_London_17_VIM_2_02_09 Proteobacteria CVUZ01000030.1 45 GCA_001180485.1 287 287 Pseudomonas aeruginosa E3_London_17_VIM_2_03_09 Proteobacteria CVVB01000221.1 46 GCA_001180485.1 287 287 Pseudomonas aeruginosa E3_London_17_VIM_2_03_09 Proteobacteria CVVB01000215.1 47 GCA_001180505.1 287 287 Pseudomonas aeruginosa E4_London_17_VIM_2_03_09 Proteobacteria CVUK01000139.1 48 GCA_001180505.1 287 287 Pseudomonas aeruginosa E4_London_17_VIM_2_03_09 Proteobacteria CVUK01000152.1 49 GCA_001180525.1 287 287 Pseudomonas aeruginosa P6_East_of_England_6_IMP_1_03_09 Proteobacteria CWFP01000032.1 50 GCA_001180525.1 287 287 Pseudomonas aeruginosa P6_East_of_England_6_IMP_1_03_09 Proteobacteria CWFP01000037.1 51 GCA_001180545.1 287 287 Pseudomonas aeruginosa P7_London_17_VIM_2_06_09 Proteobacteria CVXP01000253.1 52 GCA_001180545.1 287 287 Pseudomonas aeruginosa P7_London_17_VIM_2_06_09 Proteobacteria CVXP01000219.1 53 GCA_001180565.1 287 287 Pseudomonas aeruginosa P8_1_South_East_10_VIM_2_07_09 Proteobacteria CWET01000247.1 54 GCA_001180565.1 287 287 Pseudomonas aeruginosa P8_1_South_East_10_VIM_2_07_09 Proteobacteria CWET01000222.1 55 GCA_001180585.1 287 287 Pseudomonas aeruginosa P9_East_of_England_6_IMP_13_08_09 Proteobacteria CWEU01000015.1 56 GCA_001180585.1 287 287 Pseudomonas aeruginosa P9_East_of_England_6_IMP_13_08_09 Proteobacteria CWEU01000241.1 57 GCA_001180605.1 287 287 Pseudomonas aeruginosa P10_London_6_VIM_2_09_09 Proteobacteria CVVA01000108.1 58 GCA_001180605.1 287 287 Pseudomonas aeruginosa P10_London_6_VIM_2_09_09 Proteobacteria CVVA01000120.1 59 GCA_001180625.1 287 287 Pseudomonas aeruginosa P11_London_17_VIM_2_10_09 Proteobacteria CVVH01000136.1 60 GCA_001180625.1 287 287 Pseudomonas aeruginosa P11_London_17_VIM_2_10_09 Proteobacteria CVVH01000150.1 61 GCA_001180645.1 287 287 Pseudomonas aeruginosa P12_London_17_VIM_2_11_09 Proteobacteria CVUP01000157.1 62 GCA_001180645.1 287 287 Pseudomonas aeruginosa P12_London_17_VIM_2_11_09 Proteobacteria CVUP01000141.1 63 GCA_001180665.1 287 287 Pseudomonas aeruginosa P13_London_14_VIM_2_12_09 Proteobacteria CVUL01000136.1 64 GCA_001180665.1 287 287 Pseudomonas aeruginosa P13_London_14_VIM_2_12_09 Proteobacteria CVUL01000126.1 65 GCA_001180685.1 287 287 Pseudomonas aeruginosa P14_London_17_VIM_2_01_10 Proteobacteria CVVT01000217.1 66 GCA_001180685.1 287 287 Pseudomonas aeruginosa P14_London_17_VIM_2_01_10 Proteobacteria CVVT01000236.1 67 GCA_001180705.1 287 287 Pseudomonas aeruginosa P15_London_17_02_10 Proteobacteria CVVW01000231.1 68 GCA_001180705.1 287 287 Pseudomonas aeruginosa P15_London_17_02_10 Proteobacteria CVVW01000262.1 69 GCA_001180725.1 287 287 Pseudomonas aeruginosa P16_Lonon_17_VIM_2_02_10 Proteobacteria CVVD01000204.1 70 GCA_001180725.1 287 287 Pseudomonas aeruginosa P16_Lonon_17_VIM_2_02_10 Proteobacteria CVVD01000193.1 71 GCA_001180745.1 287 287 Pseudomonas aeruginosa P17_North_West_14_VIM_2_03_10 Proteobacteria CVUV01000236.1 72 GCA_001180745.1 287 287 Pseudomonas aeruginosa P17_North_West_14_VIM_2_03_10 Proteobacteria CVUV01000189.1 73 GCA_001180765.1 287 287 Pseudomonas aeruginosa P18_London_17_VIM_2_04_10 Proteobacteria CVVY01000157.1 74 GCA_001180765.1 287 287 Pseudomonas aeruginosa P18_London_17_VIM_2_04_10 Proteobacteria CVVY01000399.1 75 GCA_001180785.1 287 287 Pseudomonas aeruginosa P19_London_7_VIM_2_05_10 Proteobacteria CVVU01000221.1 76 GCA_001180785.1 287 287 Pseudomonas aeruginosa P19_London_7_VIM_2_05_10 Proteobacteria CVVU01000253.1 77 GCA_001180805.1 287 287 Pseudomonas aeruginosa P20_London_17_VIM_2_05_10 Proteobacteria CVUO01000146.1 78 GCA_001180805.1 287 287 Pseudomonas aeruginosa P20_London_17_VIM_2_05_10 Proteobacteria CVUO01000165.1 79 GCA_001180825.1 287 287 Pseudomonas aeruginosa P21_London_17_VIM_2_06_10 Proteobacteria CVVE01000135.1 80 GCA_001180825.1 287 287 Pseudomonas aeruginosa P21_London_17_VIM_2_06_10 Proteobacteria CVVE01000123.1 81 GCA_001180845.1 287 287 Pseudomonas aeruginosa P22_London_17_VIM_2_06_10 Proteobacteria CVVI01000141.1 82 GCA_001180845.1 287 287 Pseudomonas aeruginosa P22_London_17_VIM_2_06_10 Proteobacteria CVVI01000153.1 83 GCA_001180865.1 287 287 Pseudomonas aeruginosa P23_East_of_England_6_IMP_13_07_10 Proteobacteria CVUU01000179.1 84 GCA_001180865.1 287 287 Pseudomonas aeruginosa P23_East_of_England_6_IMP_13_07_10 Proteobacteria CVUU01000198.1 85 GCA_001180885.1 287 287 Pseudomonas aeruginosa P24_London_17_VIM_2_08_10 Proteobacteria CVUR01000168.1 86 GCA_001180885.1 287 287 Pseudomonas aeruginosa P24_London_17_VIM_2_08_10 Proteobacteria CVUR01000157.1 87 GCA_001180905.1 287 287 Pseudomonas aeruginosa P25_London_12_VIM_2_08_10 Proteobacteria CVVL01000167.1 88 GCA_001180905.1 287 287 Pseudomonas aeruginosa P25_London_12_VIM_2_08_10 Proteobacteria CVVL01000150.1 89 GCA_001180925.1 287 287 Pseudomonas aeruginosa P26_Wales_1_VIM_2_11_10 Proteobacteria CVVN01000216.1 90 GCA_001180925.1 287 287 Pseudomonas aeruginosa P26_Wales_1_VIM_2_11_10 Proteobacteria CVVN01000169.1 91 GCA_001180945.1 287 287 Pseudomonas aeruginosa P27_Wales_1_VIM_2_02_11 Proteobacteria CVVX01000242.1 92 GCA_001180945.1 287 287 Pseudomonas aeruginosa P27_Wales_1_VIM_2_02_11 Proteobacteria CVVX01000290.1 93 GCA_001180965.1 287 287 Pseudomonas aeruginosa P28_London_17_02_11 Proteobacteria CVUQ01000182.1 94 GCA_001180965.1 287 287 Pseudomonas aeruginosa P28_London_17_02_11 Proteobacteria CVUQ01000192.1 95 GCA_001180985.1 287 287 Pseudomonas aeruginosa P29_London_12_VIM_2_05_11 Proteobacteria CVVO01000189.1 96 GCA_001180985.1 287 287 Pseudomonas aeruginosa P29_London_12_VIM_2_05_11 Proteobacteria CVVO01000175.1 97 GCA_001181005.1 287 287 Pseudomonas aeruginosa P30_South_East_2_VIM_2_10_11 Proteobacteria CVVK01000149.1 98 GCA_001181005.1 287 287 Pseudomonas aeruginosa P30_South_East_2_VIM_2_10_11 Proteobacteria CVVK01000161.1 99 GCA_001181025.1 287 287 Pseudomonas aeruginosa P31_Wales_1_VIM_2_11_11 Proteobacteria CVVS01000268.1 100 GCA_001181025.1 287 287 Pseudomonas aeruginosa P31_Wales_1_VIM_2_11_11 Proteobacteria CVVS01000311.1 101 GCA_001181045.1 287 287 Pseudomonas aeruginosa P32_London_17_VIM_2_10_11 Proteobacteria CVVJ01000160.1 102 GCA_001181045.1 287 287 Pseudomonas aeruginosa P32_London_17_VIM_2_10_11 Proteobacteria CVVJ01000144.1 103 GCA_001181065.1 287 287 Pseudomonas aeruginosa P33_London_28_VIM_2_02_12 Proteobacteria CVVG01000131.1 104 GCA_001181065.1 287 287 Pseudomonas aeruginosa P33_London_28_VIM_2_02_12 Proteobacteria CVVG01000143.1 105 GCA_001181085.1 287 287 Pseudomonas aeruginosa P34_London_28_VIM_2_02_12 Proteobacteria CVVF01000155.1 106 GCA_001181085.1 287 287 Pseudomonas aeruginosa P34_London_28_VIM_2_02_12 Proteobacteria CVVF01000134.1 107 GCA_001181105.1 287 287 Pseudomonas aeruginosa P35_London_26_VIM_2_05_12 Proteobacteria CVUS01000188.1 108 GCA_001181105.1 287 287 Pseudomonas aeruginosa P35_London_26_VIM_2_05_12 Proteobacteria CVUS01000164.1 109 GCA_001181125.1 287 287 Pseudomonas aeruginosa P36_West_Midlands_5_VIM_2_06_12 Proteobacteria CVVP01000172.1 110 GCA_001181125.1 287 287 Pseudomonas aeruginosa P36_West_Midlands_5_VIM_2_06_12 Proteobacteria CVVP01000215.1 111 GCA_001181145.1 287 287 Pseudomonas aeruginosa P37_London_28_VIM_2_07_12 Proteobacteria CVUJ01000135.1 112 GCA_001181145.1 287 287 Pseudomonas aeruginosa P37_London_28_VIM_2_07_12 Proteobacteria CVUJ01000152.1 113 GCA_001181165.1 287 287 Pseudomonas aeruginosa P38_London_12_VIM_2_08_12 Proteobacteria CVUT01000161.1 114 GCA_001181165.1 287 287 Pseudomonas aeruginosa P38_London_12_VIM_2_08_12 Proteobacteria CVUT01000152.1 115 GCA_001181185.1 287 287 Pseudomonas aeruginosa P39_London_29_08_12 Proteobacteria CVVC01000121.1 116 GCA_001181185.1 287 287 Pseudomonas aeruginosa P39_London_29_08_12 Proteobacteria CVVC01000131.1 117 GCA_001181205.1 287 287 Pseudomonas aeruginosa P40_Scotland_4_VIM_2_09_12 Proteobacteria CVUM01000136.1 118 GCA_001181205.1 287 287 Pseudomonas aeruginosa P40_Scotland_4_VIM_2_09_12 Proteobacteria CVUM01000124.1 119 GCA_001181225.1 287 287 Pseudomonas aeruginosa P41_London_28_09_12 Proteobacteria CVVR01000160.1 120 GCA_001181225.1 287 287 Pseudomonas aeruginosa P41_London_28_09_12 Proteobacteria CVVR01000143.1 121 GCA_001181245.1 287 287 Pseudomonas aeruginosa P42_1_London_26_VIM_2_10_12 Proteobacteria CVWH01000143.1 122 GCA_001181245.1 287 287 Pseudomonas aeruginosa P42_1_London_26_VIM_2_10_12 Proteobacteria CVWH01000149.1 123 GCA_001181265.1 287 287 Pseudomonas aeruginosa P43_1_London_9_VIM_2_11_12 Proteobacteria CVWJ01000147.1 124 GCA_001181265.1 287 287 Pseudomonas aeruginosa P43_1_London_9_VIM_2_11_12 Proteobacteria CVWJ01000137.1 125 GCA_001181285.1 287 287 Pseudomonas aeruginosa P42_2_London_28_VIM_2_11_12 Proteobacteria CVWI01000128.1 126 GCA_001181285.1 287 287 Pseudomonas aeruginosa P42_2_London_28_VIM_2_11_12 Proteobacteria CVWI01000133.1 127 GCA_001181305.1 287 287 Pseudomonas aeruginosa P45_London_17_VIM_2_12_12 Proteobacteria CVWO01000030.1 128 GCA_001181305.1 287 287 Pseudomonas aeruginosa P45_London_17_VIM_2_12_12 Proteobacteria CVWO01000099.1 129 GCA_001181325.1 287 287 Pseudomonas aeruginosa E5_London_17_VIM_2_12_12 Proteobacteria CVWE01000133.1 130 GCA_001181325.1 287 287 Pseudomonas aeruginosa E5_London_17_VIM_2_12_12 Proteobacteria CVWE01000188.1 131 GCA_001181345.1 287 287 Pseudomonas aeruginosa E6_London_17_VIM_2_12_12 Proteobacteria CVWD01000029.1 132 GCA_001181345.1 287 287 Pseudomonas aeruginosa E6_London_17_VIM_2_12_12 Proteobacteria CVWD01000443.1 133 GCA_001181365.1 287 287 Pseudomonas aeruginosa P46_South_East_6_12_12 Proteobacteria CVWM01000196.1 134 GCA_001181365.1 287 287 Pseudomonas aeruginosa P46_South_East_6_12_12 Proteobacteria CVWM01000176.1 135 GCA_001181385.1 287 287 Pseudomonas aeruginosa P47_London_12_VIM_2_12_12 Proteobacteria CVWN01000372.1 136 GCA_001181385.1 287 287 Pseudomonas aeruginosa P47_London_12_VIM_2_12_12 Proteobacteria CVWN01000371.1 137 GCA_001181405.1 287 287 Pseudomonas aeruginosa P48_London_17_VIM_2_01_13 Proteobacteria CVWT01000099.1 138 GCA_001181405.1 287 287 Pseudomonas aeruginosa P48_London_17_VIM_2_01_13 Proteobacteria CVWT01000133.1 139 GCA_001181425.1 287 287 Pseudomonas aeruginosa P49_London_7_VIM_2_01_13 Proteobacteria CVWQ01000279.1 140 GCA_001181425.1 287 287 Pseudomonas aeruginosa P49_London_7_VIM_2_01_13 Proteobacteria CVWQ01000286.1 141 GCA_001181445.1 287 287 Pseudomonas aeruginosa P50_London_9_VIM_2_01_13 Proteobacteria CVWP01000147.1 142 GCA_001181445.1 287 287 Pseudomonas aeruginosa P50_London_9_VIM_2_01_13 Proteobacteria CVWP01000136.1 143 GCA_001181465.1 287 287 Pseudomonas aeruginosa P43_2_London_9_VIM_2_11_12 Proteobacteria CVWK01000146.1 144 GCA_001181465.1 287 287 Pseudomonas aeruginosa P43_2_London_9_VIM_2_11_12 Proteobacteria CVWK01000139.1 145 GCA_001181485.1 287 287 Pseudomonas aeruginosa P51_1_London_9_VIM_2_02_13 Proteobacteria CVWR01000277.1 146 GCA_001181485.1 287 287 Pseudomonas aeruginosa P51_1_London_9_VIM_2_02_13 Proteobacteria CVWR01000249.1 147 GCA_001181505.1 287 287 Pseudomonas aeruginosa E7_London_9_VIM_2_02_13 Proteobacteria CVWB01000104.1 148 GCA_001181505.1 287 287 Pseudomonas aeruginosa E7_London_9_VIM_2_02_13 Proteobacteria CVWB01000325.1 149 GCA_001181525.1 287 287 Pseudomonas aeruginosa P52_1_London_26_VIM_2_02_13 Proteobacteria CVWV01000212.1 150 GCA_001181525.1 287 287 Pseudomonas aeruginosa P52_1_London_26_VIM_2_02_13 Proteobacteria CVWV01000231.1 151 GCA_001181545.1 287 287 Pseudomonas aeruginosa P51_2_London_11_VIM_2_02_13 Proteobacteria CVWU01000143.1 152 GCA_001181545.1 287 287 Pseudomonas aeruginosa P51_2_London_11_VIM_2_02_13 Proteobacteria CVWU01000157.1 153 GCA_001181565.1 287 287 Pseudomonas aeruginosa P52_2_London_26_VIM_2_02_13 Proteobacteria CVWW01000197.1 154 GCA_001181565.1 287 287 Pseudomonas aeruginosa P52_2_London_26_VIM_2_02_13 Proteobacteria CVWW01000223.1 155 GCA_001181585.1 287 287 Pseudomonas aeruginosa P53_London_9_VIM_2_02_13 Proteobacteria CWER01000327.1 156 GCA_001181585.1 287 287 Pseudomonas aeruginosa P53_London_9_VIM_2_02_13 Proteobacteria CWER01000323.1 157 GCA_001181605.1 287 287 Pseudomonas aeruginosa P54_1_London_24_VIM_2_04_13 Proteobacteria CWFR01000366.1 158 GCA_001181605.1 287 287 Pseudomonas aeruginosa P54_1_London_24_VIM_2_04_13 Proteobacteria CWFR01000421.1 159 GCA_001181625.1 287 287 Pseudomonas aeruginosa E8_London_17_VIM_2_04_13 Proteobacteria CVUW01000183.1 160 GCA_001181625.1 287 287 Pseudomonas aeruginosa E8_London_17_VIM_2_04_13 Proteobacteria CVUW01000203.1 161 GCA_001181645.1 287 287 Pseudomonas aeruginosa E9_London_17_VIM_2_04_13 Proteobacteria CVUN01000148.1 162 GCA_001181645.1 287 287 Pseudomonas aeruginosa E9_London_17_VIM_2_04_13 Proteobacteria CVUN01000161.1 163 GCA_001181665.1 287 287 Pseudomonas aeruginosa P54_2_London_24_VIM_2_04_13 Proteobacteria CVXL01000226.1 164 GCA_001181665.1 287 287 Pseudomonas aeruginosa P54_2_London_24_VIM_2_04_13 Proteobacteria CVXL01000242.1 165 GCA_001181685.1 287 287 Pseudomonas aeruginosa P55_London_26_VIM_2_05_13 Proteobacteria CVWX01000125.1 166 GCA_001181685.1 287 287 Pseudomonas aeruginosa P55_London_26_VIM_2_05_13 Proteobacteria CVWX01000140.1 167 GCA_001181705.1 287 287 Pseudomonas aeruginosa E10_London_26_VIM_2_06_13 Proteobacteria CVVZ01000308.1 168 GCA_001181705.1 287 287 Pseudomonas aeruginosa E10_London_26_VIM_2_06_13 Proteobacteria CVVZ01000025.1 169 GCA_001181725.1 287 287 Pseudomonas aeruginosa E11_London_26_VIM_2_06_13 Proteobacteria CVVM01000142.1 170 GCA_001181725.1 287 287 Pseudomonas aeruginosa E11_London_26_VIM_2_06_13 Proteobacteria CVVM01000156.1 171 GCA_001181745.1 287 287 Pseudomonas aeruginosa E12_London_26_VIM_2_06_13 Proteobacteria CVUX01000216.1 172 GCA_001181745.1 287 287 Pseudomonas aeruginosa E12_London_26_VIM_2_06_13 Proteobacteria CVUX01000199.1 173 GCA_001181765.1 287 287 Pseudomonas aeruginosa E13_London_26_VIM_2_06_13 Proteobacteria CVVQ01000190.1 174 GCA_001181765.1 287 287 Pseudomonas aeruginosa E13_London_26_VIM_2_06_13 Proteobacteria CVVQ01000177.1 175 GCA_001181785.1 287 287 Pseudomonas aeruginosa E14_London_26_VIM_2_06_13 Proteobacteria CWGG01000138.1 176 GCA_001181785.1 287 287 Pseudomonas aeruginosa E14_London_26_VIM_2_06_13 Proteobacteria CWGG01000153.1 177 GCA_001181805.1 287 287 Pseudomonas aeruginosa P56_London_12_VIM_2_07_13 Proteobacteria CVXC01000168.1 178 GCA_001181805.1 287 287 Pseudomonas aeruginosa P56_London_12_VIM_2_07_13 Proteobacteria CVXC01000184.1 179 GCA_001181825.1 287 287 Pseudomonas aeruginosa P8_2_London_17_VIM_2_07_13 Proteobacteria CVXH01000145.1 180 GCA_001181825.1 287 287 Pseudomonas aeruginosa P8_2_London_17_VIM_2_07_13 Proteobacteria CVXH01000148.1 181 GCA_001181845.1 287 287 Pseudomonas aeruginosa P57_South_East_3_VIM_2_09_13 Proteobacteria CVWZ01000144.1 182 GCA_001181845.1 287 287 Pseudomonas aeruginosa P57_South_East_3_VIM_2_09_13 Proteobacteria CVWZ01000159.1 183 GCA_001181865.1 287 287 Pseudomonas aeruginosa P58_London_29_09_13 Proteobacteria CVXA01000139.1 184 GCA_001181865.1 287 287 Pseudomonas aeruginosa P58_London_29_09_13 Proteobacteria CVXA01000156.1 185 GCA_001181885.1 287 287 Pseudomonas aeruginosa P59_Wales_1_VIM_2_09_13 Proteobacteria CVXN01000001.1 186 GCA_001181885.1 287 287 Pseudomonas aeruginosa P59_Wales_1_VIM_2_09_13 Proteobacteria CVXN01000252.1 187 GCA_001181905.1 287 287 Pseudomonas aeruginosa P60_London_6_VIM_2_11_13 Proteobacteria CVXD01000175.1 188 GCA_001181905.1 287 287 Pseudomonas aeruginosa P60_London_6_VIM_2_11_13 Proteobacteria CVXD01000153.1 189 GCA_001181925.1 287 287 Pseudomonas aeruginosa P61_London_9_VIM_2_11_13 Proteobacteria CVXB01000157.1 190 GCA_001181925.1 287 287 Pseudomonas aeruginosa P61_London_9_VIM_2_11_13 Proteobacteria CVXB01000171.1 191 GCA_001181945.1 287 287 Pseudomonas aeruginosa P64_East_of_England_6_01_14 Proteobacteria CWFQ01000009.1 192 GCA_001181945.1 287 287 Pseudomonas aeruginosa P64_East_of_England_6_01_14 Proteobacteria CWFQ01000391.1 193 GCA_001181965.1 287 287 Pseudomonas aeruginosa P62_London_9_VIM_2_01_14 Proteobacteria CWEO01000265.1 194 GCA_001181965.1 287 287 Pseudomonas aeruginosa P62_London_9_VIM_2_01_14 Proteobacteria CWEO01000250.1 195 GCA_001181985.1 287 287 Pseudomonas aeruginosa E15_London_28_01_14 Proteobacteria CVWF01000732.1 196 GCA_001182005.1 287 287 Pseudomonas aeruginosa P63_London_25_VIM_2_03_14 Proteobacteria CWFH01000250.1 197 GCA_001182005.1 287 287 Pseudomonas aeruginosa P63_London_25_VIM_2_03_14 Proteobacteria CWFH01000268.1 198 GCA_001182025.1 287 287 Pseudomonas aeruginosa E16_London_17_VIM_2_04_14 Proteobacteria CVWG01001003.1 199 GCA_001182025.1 287 287 Pseudomonas aeruginosa E16_London_17_VIM_2_04_14 Proteobacteria CVWG01000111.1 200 GCA_001182945.1 287 287 Pseudomonas aeruginosa P44_Wales_1_VIM_2_11_12 Proteobacteria CVWL01000374.1 201 GCA_001182945.1 287 287 Pseudomonas aeruginosa P44_Wales_1_VIM_2_11_12 Proteobacteria CVWL01000327.1 202 GCA_001420185.1 287 287 Pseudomonas aeruginosa ATCC 33349 Proteobacteria LINV01000076.1 203 GCA_001444845.1 287 287 Pseudomonas aeruginosa ATCC 33361 Proteobacteria LIZH01000277.1 204 GCA_001444865.1 287 287 Pseudomonas aeruginosa ATCC 33362 Proteobacteria LIZI01000121.1 205 GCA_001444975.1 287 287 Pseudomonas aeruginosa ATCC 33359 Proteobacteria LIZF01000253.1 206 GCA_001444995.1 287 287 Pseudomonas aeruginosa ATCC 33360 Proteobacteria LIZG01000273.1 207 GCA_001449385.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07072 Proteobacteria LLLP01000007.1 208 GCA_001449465.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07165 Proteobacteria LLLU01000037.1 209 GCA_001449505.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07167 Proteobacteria LLLW01000014.1 210 GCA_001449515.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07168 Proteobacteria LLLX01000036.1 211 GCA_001449515.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07168 Proteobacteria LLLX01000030.1 212 GCA_001449555.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07171 Proteobacteria LLMA01000028.1 213 GCA_001449555.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07171 Proteobacteria LLMA01000003.1 214 GCA_001449605.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07174 Proteobacteria LLMD01000001.1 215 GCA_001449605.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07174 Proteobacteria LLMD01000070.1 216 GCA_001449625.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07175 Proteobacteria LLME01000030.1 217 GCA_001449625.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07175 Proteobacteria LLME01000022.1 218 GCA_001449675.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07180 Proteobacteria LLMJ01000031.1 219 GCA_001449705.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07221 Proteobacteria LLMK01000076.1 220 GCA_001449705.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07221 Proteobacteria LLMK01000071.1 221 GCA_001450165.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07370 Proteobacteria LLNU01000057.1 222 GCA_001450275.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07379 Proteobacteria LLOD01000041.1 223 GCA_001450355.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07055 Proteobacteria LLKZ01000040.1 224 GCA_001450385.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07065 Proteobacteria LLLC01000012.1 225 GCA_001450465.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07064 Proteobacteria LLLN01000006.1 226 GCA_001450525.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07173 Proteobacteria LLMC01000045.1 227 GCA_001450525.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07173 Proteobacteria LLMC01000054.1 228 GCA_001450625.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07185 Proteobacteria LLMP01000039.1 229 GCA_001451065.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07392 Proteobacteria LLOQ01000102.1 230 GCA_001451075.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07391 Proteobacteria LLOP01000052.1 231 GCA_001451225.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07415 Proteobacteria LLPC01000038.1 232 GCA_001451505.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07426 Proteobacteria LLPN01000122.1 233 GCA_001451705.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07491 Proteobacteria LLPX01000023.1 234 GCA_001451805.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07497 Proteobacteria LLQD01000079.1 235 GCA_001451945.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07618 Proteobacteria LLQP01000102.1 236 GCA_001452185.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07637 Proteobacteria LLRI01000005.1 237 GCA_001452205.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07640 Proteobacteria LLRL01000163.1 238 GCA_001452365.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07651 Proteobacteria LLRW01000066.1 239 GCA_001452365.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07651 Proteobacteria LLRW01000061.1 240 GCA_001452385.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07652 Proteobacteria LLRX01000045.1 241 GCA_001452415.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07681 Proteobacteria LLSB01000007.1 242 GCA_001452465.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07687 Proteobacteria LLSH01000054.1 243 GCA_001452485.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07688 Proteobacteria LLSI01000049.1 244 GCA_001452485.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07688 Proteobacteria LLSI01000001.1 245 GCA_001452565.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07693 Proteobacteria LLSN01000046.1 246 GCA_001452645.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07700 Proteobacteria LLSU01000053.1 247 GCA_001452645.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07700 Proteobacteria LLSU01000046.1 248 GCA_001452665.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07702 Proteobacteria LLSW01000054.1 249 GCA_001452665.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07702 Proteobacteria LLSW01000062.1 250 GCA_001452765.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07711 Proteobacteria LLTF01000239.1 251 GCA_001452905.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07253 Proteobacteria LLTN01000034.1 252 GCA_001453015.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07263 Proteobacteria LLTV01000056.1 253 GCA_001453615.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07684 Proteobacteria LLSE01000089.1 254 GCA_001453755.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07705 Proteobacteria LLSZ01000120.1 255 GCA_001453855.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07256 Proteobacteria LLTQ01000112.1 256 GCA_001453855.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07256 Proteobacteria LLTQ01000118.1 257 GCA_001453885.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07259 Proteobacteria LLTS01000104.1 258 GCA_001453885.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07259 Proteobacteria LLTS01000112.1 259 GCA_001454125.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07290 Proteobacteria LLUN01000012.1 260 GCA_001454145.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07291 Proteobacteria LLUO01000109.1 261 GCA_001454205.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07295 Proteobacteria LLUR01000002.1 262 GCA_001454225.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07296 Proteobacteria LLUS01000044.1 263 GCA_001454225.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07296 Proteobacteria LLUS01000001.1 264 GCA_001454445.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07322 Proteobacteria LLVI01000081.1 265 GCA_001454445.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07322 Proteobacteria LLVI01000088.1 266 GCA_001454485.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07324 Proteobacteria LLVK01000064.1 267 GCA_001454485.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07324 Proteobacteria LLVK01000044.1 268 GCA_001454495.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07325 Proteobacteria LLVL01000090.1 269 GCA_001454495.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07325 Proteobacteria LLVL01000001.1 270 GCA_001454515.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07328 Proteobacteria LLVO01000057.1 271 GCA_001454515.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07328 Proteobacteria LLVO01000082.1 272 GCA_001454545.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07329 Proteobacteria LLVP01000031.1 273 GCA_001454545.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07329 Proteobacteria LLVP01000037.1 274 GCA_001454565.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07330 Proteobacteria LLVQ01000079.1 275 GCA_001454565.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07330 Proteobacteria LLVQ01000086.1 276 GCA_001454675.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07287 Proteobacteria LLUM01000045.1 277 GCA_001454805.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07326 Proteobacteria LLVM01000239.1 278 GCA_001454805.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07326 Proteobacteria LLVM01000224.1 279 GCA_001454825.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07327 Proteobacteria LLVN01000114.1 280 GCA_001454825.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07327 Proteobacteria LLVN01000121.1 281 GCA_001469695.1 287 287 Pseudomonas aeruginosa AATYA Proteobacteria LODN01000001.1 282 GCA_001469695.1 287 287 Pseudomonas aeruginosa AATYA Proteobacteria LODN01000079.1 283 GCA_001471355.1 287 287 Pseudomonas aeruginosa FDAARGOS_154 Proteobacteria LORM01000001.1 284 GCA_001516165.1 287 287 Pseudomonas aeruginosa W16407 Proteobacteria CP008869.1 285 GCA_001516245.1 287 287 Pseudomonas aeruginosa F23197 Proteobacteria CP008856.1 286 GCA_001516265.1 287 287 Pseudomonas aeruginosa F30658 Proteobacteria CP008857.1 287 GCA_001516265.1 287 287 Pseudomonas aeruginosa F30658 Proteobacteria CP008857.1 288 GCA_001535675.1 287 287 Pseudomonas aeruginosa SPA01 Proteobacteria LQBU01000001.1 289 GCA_001547575.1 287 287 Pseudomonas aeruginosa BH6 Proteobacteria LGVH01000140.1 290 GCA_001560865.1 287 287 Pseudomonas aeruginosa 105777 Proteobacteria LODH01000011.1 291 GCA_001601745.1 287 287 Pseudomonas aeruginosa 105819 Proteobacteria LOHH01000029.1 292 GCA_000877315.1 292 292 Burkholderia cepacia LMG 16656 Proteobacteria JTDP01000004.1 293 GCA_001522525.1 292 292 Burkholderia cepacia INT1-BP277 Proteobacteria LOTX01000037.1 294 GCA_001523085.1 292 292 Burkholderia cepacia INT25-BP2 Proteobacteria LOUT01000007.1 295 GCA_000237065.1 1114970 294 Pseudomonas fluorescens F113 F113 Proteobacteria CP003150.1 296 GCA_000411675.1 1324332 294 Pseudomonas fluorescens LMG 5329 LMG 5329 Proteobacteria ASGY01000250.1 297 GCA_001542695.1 294 294 Pseudomonas fluorescens Ps_20 Proteobacteria LCYD01000004.1 298 GCA_000016865.1 351746 303 Pseudomonas putida F1 F1 Proteobacteria CP000712.1 299 GCA_000264665.1 231023 303 Pseudomonas putida ND6 ND6 Proteobacteria CP003588.1 300 GCA_000294445.2 1193146 303 Pseudomonas putida LS46 LS46 Proteobacteria ALPV02000008.1 301 GCA_000325725.1 1215088 303 Pseudomonas putida HB3267 PC9 Proteobacteria CP003738.1 302 GCA_001467305.1 303 303 Pseudomonas putida ABAC8 Proteobacteria LKGZ01000002.1 303 GCA_000013785.1 379731 316 Pseudomonas stutzeri A1501 A1501 Proteobacteria CP000304.1 304 GCA_000195105.1 996285 316 Pseudomonas stutzeri DSM 4166 DSM 4166 Proteobacteria CP002622.1 305 GCA_000237885.2 32042 316 Pseudomonas stutzeri ATCC 14405 = CCUG 16156 CCUG16156 Proteobacteria AGSL01000126.1 306 GCA_000267545.1 1196835 316 Pseudomonas stutzeri CCUG 29243 CCUG 29243 Proteobacteria CP003677.1 307 GCA_000307775.2 1218352 316 Pseudomonas stutzeri KOS6 KOS6 Proteobacteria KK020678.1 308 GCA_000416345.1 1212549 316 Pseudomonas stutzeri B1SMN1 B1SMN1 Proteobacteria AMVM01000007.1 309 GCA_000416545.1 1194422 317 Pseudomonas syringae pv. actinidiae ICMP 19098 ICMP 19098 Proteobacteria AOKE01000198.1 310 GCA_000416645.2 1194405 317 Pseudomonas syringae pv. actinidiae ICMP 19096 ICMP 19096 Proteobacteria AOKF01004024.1 311 GCA_000416745.1 1194401 317 Pseudomonas syringae pv. actinidiae ICMP 19094 ICMP 19094 Proteobacteria AOKJ01000458.1 312 GCA_000416765.1 1194403 317 Pseudomonas syringae pv. actinidiae ICMP 19095 ICMP 19095 Proteobacteria AOKI01000655.1 313 GCA_000416785.2 1194402 317 Pseudomonas syringae pv. actinidiae ICMP 18883 ICMP 18883 Proteobacteria AOKH01000282.1 314 GCA_000416805.1 1194421 317 Pseudomonas syringae pv. actinidiae ICMP 19099 ICMP 19099 Proteobacteria AOKD01000288.1 315 GCA_000416825.2 1194420 317 Pseudomonas syringae pv. actinidiae ICMP 19100 ICMP 19100 Proteobacteria AOKC01000529.1 316 GCA_000416905.2 1104682 317 Pseudomonas syringae pv. actinidiae ICMP 18804 ICMP 18804 Proteobacteria AOJU01004126.1 317 GCA_000737235.1 317 317 Pseudomonas syringae CEB003 Proteobacteria JPQT01000163.1 318 GCA_001467225.1 1208099 317 Pseudomonas syringae pv. actinidiae ICMP 19497 ICMP 19497 Proteobacteria LKBQ01000046.1 319 GCA_000007145.1 190485 339 Xanthomonas campestris pv. campestris str. ATCC 33913 ATCC 33913 Proteobacteria AE008922.1 320 GCA_000012105.1 314565 339 Xanthomonas campestris pv. campestris str. 8004 8004 Proteobacteria CP000050.1 321 GCA_001186415.1 340 339 Xanthomonas campestris pv. campestris ICMP 21080 Proteobacteria CP012145.1 322 GCA_000018545.1 394 380 Sinorhizobium fredii NGR234 NGR234 Proteobacteria CP001389.1 323 GCA_001510895.1 381 381 Mesorhizobium loti UFLA 01-765 Proteobacteria LPWA01000115.1 324 GCA_001510895.1 381 381 Mesorhizobium loti UFLA 01-765 Proteobacteria LPWA01000098.1 325 GCA_000985895.1 323655 399 Neorhizobium galegae bv. orientalis Proteobacteria CCRN01000010.1 326 GCA_000021845.1 440085 408 Methylobacterium extorquens CM4 CM4 Proteobacteria CP001298.1 327 GCA_000048665.1 297245 446 Legionella pneumophila str. Lens Lens Proteobacteria CR628337.1 328 GCA_000306865.1 91891 446 Legionella pneumophila subsp. pneumophila Lorraine Proteobacteria FQ958210.1 329 GCA_900048955.1 446 446 Legionella pneumophila 2532STDY5467593 Proteobacteria FJID01000003.1 330 GCA_900048965.1 446 446 Legionella pneumophila 2532STDY5467557 Proteobacteria FJJD01000021.1 331 GCA_900049285.1 446 446 Legionella pneumophila 2532STDY5467623 Proteobacteria FJLD01000023.1 332 GCA_900049295.1 446 446 Legionella pneumophila 2532STDY5467622 Proteobacteria FJLF01000024.1 333 GCA_900049305.1 446 446 Legionella pneumophila 2532STDY5467621 Proteobacteria FJLH01000015.1 334 GCA_900049375.1 446 446 Legionella pneumophila 2532STDY5467550 Proteobacteria FJJA01000022.1 335 GCA_900050245.1 446 446 Legionella pneumophila 2532STDY5467555 Proteobacteria FJJC01000012.1 336 GCA_900051005.1 446 446 Legionella pneumophila 2532STDY5467663 Proteobacteria FJLJ01000022.1 337 GCA_900051015.1 446 446 Legionella pneumophila 2531STDY5467451 Proteobacteria FJLL01000023.1 338 GCA_900051745.1 446 446 Legionella pneumophila 2532STDY5467554 Proteobacteria FJJB01000022.1 339 GCA_900052325.1 446 446 Legionella pneumophila 2532STDY5467604 Proteobacteria FJKF01000025.1 340 GCA_900052335.1 446 446 Legionella pneumophila 2532STDY5467588 Proteobacteria FJKM01000021.1 341 GCA_900052945.1 446 446 Legionella pneumophila 2532STDY5467560 Proteobacteria FJIL01000023.1 342 GCA_900053425.1 446 446 Legionella pneumophila 2532STDY5467573 Proteobacteria FJJV01000023.1 343 GCA_900053435.1 446 446 Legionella pneumophila 2532STDY5467568 Proteobacteria FJJX01000003.1 344 GCA_900053445.1 446 446 Legionella pneumophila 2532STDY5467595 Proteobacteria FJJZ01000021.1 345 GCA_900054165.1 446 446 Legionella pneumophila 2532STDY5467626 Proteobacteria FJHY01000004.1 346 GCA_900054385.1 446 446 Legionella pneumophila 2531STDY5467312 Proteobacteria FJAT01000023.1 347 GCA_900054395.1 446 446 Legionella pneumophila 2531STDY5467310 Proteobacteria FJBR01000001.1 348 GCA_900054645.1 446 446 Legionella pneumophila 2532STDY5467583 Proteobacteria FJKP01000024.1 349 GCA_900054655.1 446 446 Legionella pneumophila 2532STDY5467613 Proteobacteria FJKY01000028.1 350 GCA_900054665.1 446 446 Legionella pneumophila 2532STDY5467610 Proteobacteria FJLB01000023.1 351 GCA_900054675.1 446 446 Legionella pneumophila 2532STDY5467611 Proteobacteria FJLA01000022.1 352 GCA_900054685.1 446 446 Legionella pneumophila 2532STDY5467619 Proteobacteria FJLG01000023.1 353 GCA_900055215.1 446 446 Legionella pneumophila 2532STDY5467582 Proteobacteria FJKK01000023.1 354 GCA_900055605.1 446 446 Legionella pneumophila 2532STDY5467580 Proteobacteria FJIF01000024.1 355 GCA_900055615.1 446 446 Legionella pneumophila 2532STDY5467553 Proteobacteria FJIH01000023.1 356 GCA_900055625.1 446 446 Legionella pneumophila 2532STDY5467571 Proteobacteria FJJY01000024.1 357 GCA_900055635.1 446 446 Legionella pneumophila 2532STDY5467607 Proteobacteria FJLC01000024.1 358 GCA_900056195.1 446 446 Legionella pneumophila 2532STDY5467551 Proteobacteria FJJP01000022.1 359 GCA_900056205.1 446 446 Legionella pneumophila 2532STDY5467617 Proteobacteria FJKS01000024.1 360 GCA_900056215.1 446 446 Legionella pneumophila 2532STDY5467616 Proteobacteria FJKT01000023.1 361 GCA_900056935.1 446 446 Legionella pneumophila 2532STDY5467541 Proteobacteria FJJR01000023.1 362 GCA_900056945.1 446 446 Legionella pneumophila 2532STDY5467540 Proteobacteria FJJU01000024.1 363 GCA_900057265.1 446 446 Legionella pneumophila 2532STDY5467592 Proteobacteria FJKR01000024.1 364 GCA_900057575.1 446 446 Legionella pneumophila 2532STDY5467547 Proteobacteria FJIP01000023.1 365 GCA_900057585.1 446 446 Legionella pneumophila 2532STDY5467543 Proteobacteria FJJT01000023.1 366 GCA_900057595.1 446 446 Legionella pneumophila 2532STDY5467574 Proteobacteria FJKC01000003.1 367 GCA_900057605.1 446 446 Legionella pneumophila 2532STDY5467625 Proteobacteria FJKU01000024.1 368 GCA_900057615.1 446 446 Legionella pneumophila 2531STDY5467449 Proteobacteria FJLM01000024.1 369 GCA_900057785.1 446 446 Legionella pneumophila 2532STDY5467576 Proteobacteria FJIA01000024.1 370 GCA_900058605.1 446 446 Legionella pneumophila 2532STDY5467563 Proteobacteria FJJL01000023.1 371 GCA_900058825.1 446 446 Legionella pneumophila 2532STDY5467600 Proteobacteria FJIT01000024.1 372 GCA_900058835.1 446 446 Legionella pneumophila 2532STDY5467548 Proteobacteria FJIZ01000023.1 373 GCA_900059595.1 446 446 Legionella pneumophila 2532STDY5467603 Proteobacteria FJKE01000023.1 374 GCA_900059605.1 446 446 Legionella pneumophila 2532STDY5467614 Proteobacteria FJKV01000024.1 375 GCA_900060005.1 446 446 Legionella pneumophila 2532STDY5467535 Proteobacteria FJIG01000023.1 376 GCA_900060015.1 446 446 Legionella pneumophila 2532STDY5467596 Proteobacteria FJJG01000023.1 377 GCA_900060415.1 446 446 Legionella pneumophila 2532STDY5467542 Proteobacteria FJII01000024.1 378 GCA_900060425.1 446 446 Legionella pneumophila 2532STDY5467549 Proteobacteria FJIJ01000024.1 379 GCA_900060435.1 446 446 Legionella pneumophila 2532STDY5467544 Proteobacteria FJIK01000023.1 380 GCA_900060445.1 446 446 Legionella pneumophila 2532STDY5467537 Proteobacteria FJIM01000023.1 381 GCA_900060455.1 446 446 Legionella pneumophila 2532STDY5467584 Proteobacteria FJKQ01000023.1 382 GCA_900060775.1 446 446 Legionella pneumophila 2532STDY5467627 Proteobacteria FJIS01000025.1 383 GCA_900060785.1 446 446 Legionella pneumophila 2532STDY5467556 Proteobacteria FJJF01000024.1 384 GCA_900061535.1 446 446 Legionella pneumophila 2531STDY5467351 Proteobacteria FJCL01000024.1 385 GCA_900062525.1 446 446 Legionella pneumophila 2531STDY5467450 Proteobacteria FJHW01000004.1 386 GCA_900062535.1 446 446 Legionella pneumophila 2532STDY5467575 Proteobacteria FJHX01000023.1 387 GCA_900062545.1 446 446 Legionella pneumophila 2532STDY5467591 Proteobacteria FJHZ01000023.1 388 GCA_900062555.1 446 446 Legionella pneumophila 2532STDY5467578 Proteobacteria FJIB01000025.1 389 GCA_900062565.1 446 446 Legionella pneumophila 2532STDY5467581 Proteobacteria FJIC01000024.1 390 GCA_900062575.1 446 446 Legionella pneumophila 2532STDY5467577 Proteobacteria FJIE01000004.1 391 GCA_900062585.1 446 446 Legionella pneumophila 2532STDY5467546 Proteobacteria FJIN01000024.1 392 GCA_900062595.1 446 446 Legionella pneumophila 2532STDY5467565 Proteobacteria FJIO01000024.1 393 GCA_900062605.1 446 446 Legionella pneumophila 2532STDY5467561 Proteobacteria FJIR01000021.1 394 GCA_900062615.1 446 446 Legionella pneumophila 2532STDY5467559 Proteobacteria FJIQ01000021.1 395 GCA_900062625.1 446 446 Legionella pneumophila 2532STDY5467628 Proteobacteria FJIU01000023.1 396 GCA_900062635.1 446 446 Legionella pneumophila 2532STDY5467538 Proteobacteria FJIY01000023.1 397 GCA_900062645.1 446 446 Legionella pneumophila 2532STDY5467545 Proteobacteria FJIX01000022.1 398 GCA_900062655.1 446 446 Legionella pneumophila 2532STDY5467602 Proteobacteria FJJH01000024.1 399 GCA_900062665.1 446 446 Legionella pneumophila 2532STDY5467562 Proteobacteria FJJI01000022.1 400 GCA_900062675.1 446 446 Legionella pneumophila 2532STDY5467539 Proteobacteria FJJJ01000022.1 401 GCA_900062685.1 446 446 Legionella pneumophila 2532STDY5467566 Proteobacteria FJJK01000024.1 402 GCA_900062695.1 446 446 Legionella pneumophila 2532STDY5467572 Proteobacteria FJJM01000023.1 403 GCA_900062705.1 446 446 Legionella pneumophila 2532STDY5467608 Proteobacteria FJJO01000023.1 404 GCA_900062715.1 446 446 Legionella pneumophila 2532STDY5467564 Proteobacteria FJJN01000023.1 405 GCA_900062725.1 446 446 Legionella pneumophila 2532STDY5467586 Proteobacteria FJJQ01000024.1 406 GCA_900062735.1 446 446 Legionella pneumophila 2532STDY5467567 Proteobacteria FJJW01000021.1 407 GCA_900062745.1 446 446 Legionella pneumophila 2532STDY5467598 Proteobacteria FJKA01000023.1 408 GCA_900062755.1 446 446 Legionella pneumophila 2532STDY5467585 Proteobacteria FJKB01000023.1 409 GCA_900063115.1 446 446 Legionella pneumophila 2532STDY5467558 Proteobacteria FJJS01000025.1 410 GCA_900063125.1 446 446 Legionella pneumophila 2532STDY5467615 Proteobacteria FJKW01000024.1 411 GCA_900063135.1 446 446 Legionella pneumophila 2532STDY5467587 Proteobacteria FJKZ01000024.1 412 GCA_900063145.1 446 446 Legionella pneumophila 2532STDY5467612 Proteobacteria FJKX01000024.1 413 GCA_900063835.1 446 446 Legionella pneumophila 2532STDY5467552 Proteobacteria FJJE01000022.1 414 GCA_900063845.1 446 446 Legionella pneumophila 2532STDY5467605 Proteobacteria FJKD01000023.1 415 GCA_900063855.1 446 446 Legionella pneumophila 2532STDY5467597 Proteobacteria FJKG01000023.1 416 GCA_900063865.1 446 446 Legionella pneumophila 2532STDY5467594 Proteobacteria FJKH01000022.1 417 GCA_900063875.1 446 446 Legionella pneumophila 2532STDY5467589 Proteobacteria FJKN01000025.1 418 GCA_900063885.1 446 446 Legionella pneumophila 2532STDY5467601 Proteobacteria FJKO01000022.1 419 GCA_900063895.1 446 446 Legionella pneumophila 2532STDY5467620 Proteobacteria FJLE01000025.1 420 GCA_900064205.1 446 446 Legionella pneumophila 2532STDY5467618 Proteobacteria FJLI01000003.1 421 GCA_900064315.1 446 446 Legionella pneumophila 2532STDY5467599 Proteobacteria FJKJ01000024.1 422 GCA_900064325.1 446 446 Legionella pneumophila 2532STDY5467606 Proteobacteria FJKL01000024.1 423 GCA_900064495.1 446 446 Legionella pneumophila 2532STDY5467534 Proteobacteria FJIW01000023.1 424 GCA_900064755.1 446 446 Legionella pneumophila 2532STDY5467579 Proteobacteria FJIV01000020.1 425 GCA_900064765.1 446 446 Legionella pneumophila 2532STDY5467590 Proteobacteria FJKI01000024.1 426 GCA_900073005.1 446 446 Legionella pneumophila LP_617 Proteobacteria FJOC01000028.1 427 GCA_001467765.1 456 456 Legionella jordanis BL-540 Proteobacteria LNYJ01000003.1 428 GCA_000353775.1 1094483 470 Acinetobacter baumannii ABNIH19 ABNIH19 Proteobacteria APBH01000063.1 429 GCA_000353955.1 1094470 470 Acinetobacter baumannii ABNIH6 ABNIH6 Proteobacteria APAX01000087.1 430 GCA_000353975.1 1094471 470 Acinetobacter baumannii ABNIH7 ABNIH7 Proteobacteria APAY01000451.1 431 GCA_000353995.1 1094474 470 Acinetobacter baumannii ABNIH10 ABNIH10 Proteobacteria APAZ01000253.1 432 GCA_000354015.1 1094475 470 Acinetobacter baumannii ABNIH11 ABNIH11 Proteobacteria APBA01000112.1 433 GCA_000580595.1 1310619 470 Acinetobacter baumannii 1419130 1419130 Proteobacteria JEWL01000035.1 434 GCA_000580635.1 1310647 470 Acinetobacter baumannii 1461402 1461402 Proteobacteria JEWP01000001.1 435 GCA_000580875.1 1310613 470 Acinetobacter baumannii 1295743 1295743 Proteobacteria JEWH01000023.1 436 GCA_000580995.1 1310611 470 Acinetobacter baumannii 466760 466760 Proteobacteria JEXB01000001.1 437 GCA_000581195.1 1310651 470 Acinetobacter baumannii 230853 230853 Proteobacteria JEWW01000002.1 438 GCA_000582235.1 1310680 470 Acinetobacter baumannii 1239920 1239920 Proteobacteria JEXZ01000002.1 439 GCA_000582255.1 1310683 470 Acinetobacter baumannii 1566109 1566109 Proteobacteria JEYB01000087.1 440 GCA_000682355.1 1310685 470 Acinetobacter baumannii 72431 72431 Proteobacteria JMNZ01000050.1 441 GCA_000805365.1 470 470 Acinetobacter baumannii 1 Proteobacteria JSAO01000006.1 442 GCA_001028315.1 1409926 470 Acinetobacter baumannii MRSN 58 MRSN 58 Proteobacteria JPHW01000032.1 443 GCA_001432425.1 470 470 Acinetobacter baumannii ABBL014 Proteobacteria LLCU01000093.1 444 GCA_001433005.1 470 470 Acinetobacter baumannii ABBL038 Proteobacteria LLDS01000053.1 445 GCA_001578145.1 470 470 Acinetobacter baumannii XH858 Proteobacteria CP014528.1 446 GCA_000690355.2 1458258 518 Bordetella bronchiseptica B18-5 (C3) B18-5 (C3) Proteobacteria JGWP01000092.1 447 GCA_000690635.1 1331233 518 Bordetella bronchiseptica MBORD762 MBORD762 Proteobacteria JHBR01000046.1 448 GCA_000024245.1 622759 542 Zymomonas mobilis subsp. mobilis NCIMB 11163 NCIMB 11163 Proteobacteria CP001723.1 449 GCA_000218875.1 579138 542 Zymomonas mobilis subsp. pomaceae ATCC 29192 ATCC 29192 Proteobacteria CP002866.1 450 GCA_001472275.1 548 548 Enterobacter aerogenes SMART_429 Proteobacteria LPQB01000006.1 451 GCA_001518035.1 548 548 Enterobacter aerogenes GN02710 Proteobacteria LRCB01000137.1 452 GCA_000743785.2 549 549 Pantoea agglomerans 4 Proteobacteria JPOT02000001.1 453 GCA_000286275.1 1211025 550 Enterobacter cloacae subsp. cloacae ENHKU01 ENHKU01 Proteobacteria CP003737.1 454 GCA_000496775.1 1399146 550 Enterobacter cloacae S611 S611 Proteobacteria AXOM01000016.1 455 GCA_000534275.1 1400147 550 Enterobacter cloacae UCI 24 UCI 24 Proteobacteria KI973153.1 456 GCA_000692355.1 1400148 550 Enterobacter cloacae UCI 29 UCI 29 Proteobacteria KK736271.1 457 GCA_000784865.1 550 550 Enterobacter cloacae ECNIH4 Proteobacteria CP009850.1 458 GCA_000965825.1 550 550 Enterobacter cloacae CIDEIMsCOL5 Proteobacteria JZKP01000063.1 459 GCA_000966005.1 550 550 Enterobacter cloacae CIDEIMsCOL4 Proteobacteria JZKO01000065.1 460 GCA_001317225.1 336306 550 Enterobacter cloacae subsp. cloacae ST434:953099839 Proteobacteria LIEW01000028.1 461 GCA_001441705.1 550 550 Enterobacter cloacae 8706 Proteobacteria LLXN01000108.1 462 GCA_001518525.1 550 550 Enterobacter cloacae GN02618 Proteobacteria LRBY01000003.1 463 GCA_000270125.2 932677 553 Pantoea ananatis AJ13355 AJ13355 Proteobacteria AP012032.2 464 GCA_000283875.1 1123863 553 Pantoea ananatis LMG 5342 LMG 5342 Proteobacteria HE617160.1 465 GCA_000294535.1 1218933 554 Pectobacterium carotovorum subsp. carotovorum PCC21 PCC21 Proteobacteria CP003776.1 466 GCA_000808145.1 180957 554 Pectobacterium carotovorum subsp. brasiliense YC D62 Proteobacteria JUJD01000008.1 467 GCA_000808295.1 180957 554 Pectobacterium carotovorum subsp. brasiliense YC T31 Proteobacteria JUJL01000008.1 468 GCA_000808315.1 180957 554 Pectobacterium carotovorum subsp. brasiliense YC T3 Proteobacteria JUJM01000011.1 469 GCA_000017745.1 331111 562 Escherichia coli O139:H28 str. E24377A E24377A Proteobacteria CP000800.1 470 GCA_000267025.1 1005535 562 Escherichia coli EC1738 EC1738 Proteobacteria AKMN01000044.1 471 GCA_000267865.2 1005494 562 Escherichia coli PA10 PA10 Proteobacteria JH708741.1 472 GCA_000304875.2 1005452 562 Escherichia coli 5.2239 5.2239 Proteobacteria JH970984.1 473 GCA_000316885.2 1005408 562 Escherichia coli 95.0943 95.0943 Proteobacteria KB000904.1 474 GCA_000335135.1 1005439 562 Escherichia coli 99.1781 99.1781 Proteobacteria AOEQ01000009.1 475 GCA_000335295.2 1005440 562 Escherichia coli 99.1753 99.1753 Proteobacteria AOED01000081.1 476 GCA_000335315.2 1005438 562 Escherichia coli 99.1775 99.1775 Proteobacteria AOEE01000071.1 477 GCA_000340455.2 1081887 562 Escherichia coli 09BKT078844 09BKT078844 Proteobacteria KB452795.1 478 GCA_000351585.1 1182667 562 Escherichia coli KTE60 KTE60 Proteobacteria KB732732.1 479 GCA_000352105.1 1169329 562 Escherichia coli KTE9 KTE9 Proteobacteria KB732995.1 480 GCA_000357165.1 1116056 562 Escherichia coli P0299917.10 P0299917.10 Proteobacteria APYK01000102.1 481 GCA_000357185.2 1116048 562 Escherichia coli P0299917.2 P0299917.2 Proteobacteria APYL01000006.1 482 GCA_000357205.2 1116049 562 Escherichia coli P0299917.3 P0299917.3 Proteobacteria APYM01000020.1 483 GCA_000357305.2 1116050 562 Escherichia coli P0299917.4 P0299917.4 Proteobacteria APYN01000006.1 484 GCA_000357325.1 1116051 562 Escherichia coli P0299917.5 P0299917.5 Proteobacteria APYO01000007.1 485 GCA_000357345.2 1116052 562 Escherichia coli P0299917.6 P0299917.6 Proteobacteria APYP01000006.1 486 GCA_000357365.2 1116053 562 Escherichia coli P0299917.7 P0299917.7 Proteobacteria APYQ01000007.1 487 GCA_000357505.2 1116055 562 Escherichia coli P0299917.9 P0299917.9 Proteobacteria APYS01000112.1 488 GCA_000357685.2 1125651 562 Escherichia coli P0304799.3 P0304799.3 Proteobacteria APZX01000274.1 489 GCA_000358795.2 1116054 562 Escherichia coli P0299917.8 P0299917.8 Proteobacteria APYR01000109.1 490 GCA_000398885.1 1169351 562 Escherichia coli KTE33 KTE33 Proteobacteria KB976087.1 491 GCA_000459555.1 1281153 562 Escherichia coli KOEGE 3 (4a) KOEGE 3 (4a) Proteobacteria KE701179.1 492 GCA_000459855.1 1281168 562 Escherichia coli KOEGE 71 (186a) KOEGE 71 (186a) Proteobacteria KE701379.1 493 GCA_000459915.1 1281171 562 Escherichia coli KOEGE 118 (317a) KOEGE 118 (317a) Proteobacteria KE701414.1 494 GCA_000460355.1 1281194 562 Escherichia coli UMEA 3151-1 UMEA 3151-1 Proteobacteria KE701683.1 495 GCA_000461795.1 1281275 562 Escherichia coli UMEA 3899-1 UMEA 3899-1 Proteobacteria KE702684.1 496 GCA_000461915.2 1151226 562 Escherichia coli B26-2 B26-2 Proteobacteria AVQV01000011.1 497 GCA_000461955.2 1151213 562 Escherichia coli B102 B102 Proteobacteria AVQS01000034.1 498 GCA_000461995.2 1151214 562 Escherichia coli B107 B107 Proteobacteria AVQT01000036.1 499 GCA_000462025.2 1151225 562 Escherichia coli B26-1 B26-1 Proteobacteria AVQU01000037.1 500 GCA_000462485.2 1151234 562 Escherichia coli B103 B103 Proteobacteria AVRS01000033.1 501 GCA_000462505.2 1151243 562 Escherichia coli B104 B104 Proteobacteria AVRT01000033.1 502 GCA_000462525.2 1151247 562 Escherichia coli B105 B105 Proteobacteria AVRU01000004.1 503 GCA_000462545.2 1151248 562 Escherichia coli B106 B106 Proteobacteria AVRV01000031.1 504 GCA_000462685.2 1151227 562 Escherichia coli B40-1 B40-1 Proteobacteria AVSD01000007.1 505 GCA_000462705.2 1151228 562 Escherichia coli B40-2 B40-2 Proteobacteria AVSE01000035.1 506 GCA_000462725.2 1151246 562 Escherichia coli B49-2 B49-2 Proteobacteria AVSF01000004.1 507 GCA_000462765.2 1151239 562 Escherichia coli B83 B83 Proteobacteria AVSH01000033.1 508 GCA_000462785.2 1151240 562 Escherichia coli B84 B84 Proteobacteria AVSI01000002.1 509 GCA_000462805.2 1151241 562 Escherichia coli B85 B85 Proteobacteria AVSJ01000006.1 510 GCA_000462825.2 1151242 562 Escherichia coli B86 B86 Proteobacteria AVSK01000012.1 511 GCA_000599665.1 562 562 Escherichia coli ST2747 Proteobacteria CP007392.1 512 GCA_000599685.1 562 562 Escherichia coli ST2747 Proteobacteria CP007393.1 513 GCA_000599705.1 562 562 Escherichia coli ST2747 Proteobacteria CP007394.1 514 GCA_000601195.1 1444161 562 Escherichia coli 1-176-05_S3_C2 1-176-05_S3_C2 Proteobacteria JHDF01000008.1 515 GCA_000614255.1 1446644 562 Escherichia coli O157:H7 str. 2011EL-2114 2011EL-2114 Proteobacteria JHKH01000012.1 516 GCA_000614645.2 1446643 562 Escherichia coli O157:H7 str. 2011EL-2113 2011EL-2113 Proteobacteria JHKI01000034.1 517 GCA_000614805.2 1446656 562 Escherichia coli O157:H7 str. F7350 F7350 Proteobacteria JHJN01000063.1 518 GCA_000615745.2 1446634 562 Escherichia coli O157:H7 str. 2011EL-2103 2011EL-2103 Proteobacteria JHKR01000093.1 519 GCA_000615785.2 1446635 562 Escherichia coli O157:H7 str. 2011EL-2104 2011EL-2104 Proteobacteria JHKQ01000088.1 520 GCA_000615815.2 1446636 562 Escherichia coli O157:H7 str. 2011EL-2105 2011EL-2105 Proteobacteria JHKP01000065.1 521 GCA_000615865.2 1446637 562 Escherichia coli O157:H7 str. 2011EL-2106 2011EL-2106 Proteobacteria JHKO01000118.1 522 GCA_000615925.2 1446638 562 Escherichia coli O157:H7 str. 2011EL-2107 2011EL-2107 Proteobacteria JHKN01000091.1 523 GCA_000615965.2 1446639 562 Escherichia coli O157:H7 str. 2011EL-2108 2011EL-2108 Proteobacteria JHKM01000041.1 524 GCA_000616005.2 1446640 562 Escherichia coli O157:H7 str. 2011EL-2109 2011EL-2109 Proteobacteria JHKL01000081.1 525 GCA_000616035.2 1446641 562 Escherichia coli O157:H7 str. 2011EL-2111 2011EL-2111 Proteobacteria JHKK01000026.1 526 GCA_000616075.2 1446642 562 Escherichia coli O157:H7 str. 2011EL-2112 2011EL-2112 Proteobacteria JHKJ01000066.1 527 GCA_000617465.2 1446524 562 Escherichia coli O111:NM str. 2010C-4735 2010C-4735 Proteobacteria JHMU01000073.1 528 GCA_000618225.2 1446657 562 Escherichia coli O157:H7 str. F7377 F7377 Proteobacteria JHJM01000101.1 529 GCA_000619325.2 1446580 562 Escherichia coli O123:H11 str. 2009C-3307 2009C-3307 Proteobacteria JHHB01000001.1 530 GCA_000704985.1 1444084 562 Escherichia coli 3-105-05_S1_C2 3-105-05_S1_C2 Proteobacteria JNSA01000028.1 531 GCA_000797815.1 562 562 Escherichia coli CVM N41556PS Proteobacteria JUBQ01000063.1 532 GCA_000797915.1 562 562 Escherichia coli CVM N41498PS Proteobacteria JUBR01000061.1 533 GCA_001281885.1 562 562 Escherichia coli STEC 2257 Proteobacteria LGBF01000030.1 534 GCA_001281915.1 562 562 Escherichia coli STEC 2821 Proteobacteria LGBI01000040.1 535 GCA_001282065.1 562 562 Escherichia coli STEC 2820 Proteobacteria LGBQ01000093.1 536 GCA_001284745.1 562 562 Escherichia coli 401709_aEPEC Proteobacteria CYCR01000027.1 537 GCA_001285705.1 562 562 Escherichia coli 402767 Proteobacteria CYET01000020.1 538 GCA_001297965.1 562 562 Escherichia coli STEC 915 Proteobacteria LFUH01000095.1 539 GCA_001297985.1 562 562 Escherichia coli STEC 623 Proteobacteria LFUB01000081.1 540 GCA_001309565.1 562 562 Escherichia coli PARC448 Proteobacteria LDYO01000075.1 541 GCA_001309965.1 562 562 Escherichia coli CO283 Proteobacteria LEAI01000125.1 542 GCA_001419785.1 562 562 Escherichia coli 33 Proteobacteria LIUW01000013.1 543 GCA_001455035.1 562 562 Escherichia coli 22593 Proteobacteria LMBK01000190.1 544 GCA_001519145.1 562 562 Escherichia coli GN02606 Proteobacteria LQUQ01000101.1 545 GCA_001521225.1 562 562 Escherichia coli GN02350 Proteobacteria LQTE01000121.1 546 GCA_001572045.1 562 562 Escherichia coli CFSAN025093 Proteobacteria LPXY01000033.1 547 GCA_001572205.1 562 562 Escherichia coli CFSAN025114 Proteobacteria LPYO01000230.1 548 GCA_001572345.1 562 562 Escherichia coli CFSAN025116 Proteobacteria LPYQ01000200.1 549 GCA_001572445.1 562 562 Escherichia coli CFSAN025127 Proteobacteria LPYZ01000229.1 550 GCA_001575465.1 562 562 Escherichia coli G222 Proteobacteria LOOL01000028.1 551 GCA_001575625.1 562 562 Escherichia coli G236 Proteobacteria LOOR01000015.1 552 GCA_001576035.1 562 562 Escherichia coli G27 Proteobacteria LOOY01000001.1 553 GCA_001576095.1 562 562 Escherichia coli G303 Proteobacteria LOPE01000051.1 554 GCA_001576205.1 562 562 Escherichia coli G301 Proteobacteria LOPD01000001.1 555 GCA_001576325.1 562 562 Escherichia coli G28 Proteobacteria LOOZ01000025.1 556 GCA_001576455.1 562 562 Escherichia coli G51 Proteobacteria LOPO01000094.1 557 GCA_000191665.1 981367 564 Escherichia fergusonii ECD227 ECD227 Proteobacteria CM001142.1 558 GCA_000248015.2 1115512 565 Escherichia hermannii NBRC 105704 NBRC 105704 Proteobacteria BAFF01000030.1 559 GCA_000239255.1 1002364 569 Hafnia alvei ATCC 51873 ATCC 51873 Proteobacteria JH417508.1 560 GCA_000300675.1 1203545 573 Klebsiella pneumoniae subsp. pneumoniae WGLW2 WGLW2 Proteobacteria JH930419.1 561 GCA_000300675.1 1203545 573 Klebsiella pneumoniae subsp. pneumoniae WGLW2 WGLW2 Proteobacteria JH930421.1 562 GCA_000316265.2 1236101 573 Klebsiella pneumoniae JHCK1 JHCK1 Proteobacteria ANGH02000148.1 563 GCA_000316265.2 1236101 573 Klebsiella pneumoniae JHCK1 JHCK1 Proteobacteria ANGH02000193.1 564 GCA_000409125.1 1284817 573 Klebsiella pneumoniae UHKPC57 UHKPC57 Proteobacteria ARPR01000165.1 565 GCA_000417465.1 1284818 573 Klebsiella pneumoniae UHKPC179 UHKPC179 Proteobacteria ARSM01000009.1 566 GCA_000474635.1 1381121 573 Klebsiella pneumoniae 303K 303K Proteobacteria AVAN01000015.1 567 GCA_000492775.1 1328378 573 Klebsiella pneumoniae MGH 46 MGH 46 Proteobacteria KI535585.1 568 GCA_000529945.1 1432553 573 Klebsiella pneumoniae IS46 IS46 Proteobacteria CBWL010000661.1 569 GCA_000567405.1 1328405 573 Klebsiella pneumoniae BIDMC 11 BIDMC 11 Proteobacteria KK036861.1 570 GCA_000567405.1 1328405 573 Klebsiella pneumoniae BIDMC 11 BIDMC 11 Proteobacteria KK036856.1 571 GCA_000688155.1 1438786 573 Klebsiella pneumoniae MGH 63 MGH 63 Proteobacteria JJNB01000019.1 572 GCA_000688215.1 1438798 573 Klebsiella pneumoniae MGH 75 MGH 75 Proteobacteria JJNK01000020.1 573 GCA_000694235.1 1438772 573 Klebsiella pneumoniae CHS 66 CHS 66 Proteobacteria KK737377.1 574 GCA_000694535.1 1438788 573 Klebsiella pneumoniae MGH 65 MGH 65 Proteobacteria KK737534.1 575 GCA_000707985.1 1329843 573 Klebsiella pneumoniae BIDMC 33B BIDMC 33B Proteobacteria KL407346.1 576 GCA_000733255.1 1406314 573 Klebsiella pneumoniae subsp. pneumoniae PittNDM01 PittNDM01 Proteobacteria CP006798.1 577 GCA_000764615.1 573 573 Klebsiella pneumoniae PMK1 Proteobacteria CP008929.1 578 GCA_000764635.1 573 573 Klebsiella pneumoniae BAMC 07-18 Proteobacteria JRQE01000001.1 579 GCA_000788005.1 573 573 Klebsiella pneumoniae 101712 Proteobacteria JSZI01000009.1 580 GCA_000943095.1 573 573 Klebsiella pneumoniae ST15 NDM-1 Proteobacteria CDQG01000025.1 581 GCA_001031325.1 573 573 Klebsiella pneumoniae CHS112 Proteobacteria KQ088280.1 582 GCA_001032775.1 573 573 Klebsiella pneumoniae CHS201 Proteobacteria KQ088952.1 583 GCA_001033455.1 573 573 Klebsiella pneumoniae MGH81 Proteobacteria KQ089253.1 584 GCA_001033725.1 573 573 Klebsiella pneumoniae MGH101 Proteobacteria KQ089465.1 585 GCA_001033755.1 573 573 Klebsiella pneumoniae MGH111 Proteobacteria KQ089480.1 586 GCA_001033835.1 573 573 Klebsiella pneumoniae MGH115 Proteobacteria KQ089541.1 587 GCA_001033885.1 573 573 Klebsiella pneumoniae MGH117 Proteobacteria KQ089551.1 588 GCA_001033925.1 573 573 Klebsiella pneumoniae MGH124 Proteobacteria KQ089570.1 589 GCA_001033925.1 573 573 Klebsiella pneumoniae MGH124 Proteobacteria KQ089573.1 590 GCA_001034065.1 573 573 Klebsiella pneumoniae BIDMC90 Proteobacteria KQ089642.1 591 GCA_001034365.1 573 573 Klebsiella pneumoniae UCI96 Proteobacteria KQ089764.1 592 GCA_001185865.1 573 573 Klebsiella pneumoniae CHS175 Proteobacteria KQ236853.1 593 GCA_001307175.1 573 573 Klebsiella pneumoniae KP617 Proteobacteria CP012753.1 594 GCA_001316865.1 72407 573 Klebsiella pneumoniae subsp. pneumoniae ST14:944535499 Proteobacteria LIDW01000003.1 595 GCA_001462705.1 573 573 Klebsiella pneumoniae K57-33 Proteobacteria LNGX01000156.1 596 GCA_001463165.1 573 573 Klebsiella pneumoniae U25 Proteobacteria CP012043.1 597 GCA_001463475.1 573 573 Klebsiella pneumoniae 50884375 Proteobacteria LNIS01000122.1 598 GCA_001521895.1 72407 573 Klebsiella pneumoniae subsp. pneumoniae NUHL24835 Proteobacteria CP014004.1 599 GCA_001574505.1 573 573 Klebsiella pneumoniae U41 Proteobacteria LSTN01000108.1 600 GCA_001596905.1 573 573 Klebsiella pneumoniae KPOII-4 Proteobacteria JXIW01000052.1 601 GCA_001596915.1 573 573 Klebsiella pneumoniae KPOII-2 Proteobacteria JXIV01000036.1 602 GCA_001596925.1 573 573 Klebsiella pneumoniae KPOII-2 Proteobacteria JUBO01000066.1 603 GCA_001596935.1 573 573 Klebsiella pneumoniae KPOII-1 Proteobacteria JUBN01000046.1 604 GCA_001596985.1 573 573 Klebsiella pneumoniae KPOII-7 Proteobacteria JXIY01000037.1 605 GCA_001596995.1 573 573 Klebsiella pneumoniae KPOII-10 Proteobacteria JXJB01000058.1 606 GCA_001597015.1 573 573 Klebsiella pneumoniae KP-33P Proteobacteria JXJG01000008.1 607 GCA_001597095.1 573 573 Klebsiella pneumoniae KPOII-1 Proteobacteria JXIU01000015.1 608 GCA_001597115.1 573 573 Klebsiella pneumoniae KPOII-6 Proteobacteria JXIX01000053.1 609 GCA_001597145.1 573 573 Klebsiella pneumoniae KPOII-8 Proteobacteria JXIZ01000056.1 610 GCA_001597165.1 573 573 Klebsiella pneumoniae KPOII-9 Proteobacteria JXJA01000044.1 611 GCA_001597175.1 573 573 Klebsiella pneumoniae KPEII-1 Proteobacteria JXJC01000056.1 612 GCA_001597195.1 573 573 Klebsiella pneumoniae KPEII-2 Proteobacteria JXJD01000059.1 613 GCA_001597225.1 573 573 Klebsiella pneumoniae KPEII-3 Proteobacteria JXJE01000058.1 614 GCA_001597245.1 573 573 Klebsiella pneumoniae KP-10 Proteobacteria LDOY01000067.1 615 GCA_001219605.1 630 630 Yersinia enterocolitica YE04/02 Proteobacteria CTKX01000003.1 616 GCA_001319885.1 633 633 Yersinia pseudotuberculosis OK6088 Proteobacteria CGGM01000007.1 617 GCA_001131685.1 634 634 Yersinia bercovieri 127/84 Proteobacteria CQBU01000002.1 618 GCA_000612075.2 1448139 644 Aeromonas hydrophila YL17 YL17 Proteobacteria CP007518.2 619 GCA_001270765.1 648 648 Aeromonas caviae 429865 Proteobacteria LIIX01000004.1 620 GCA_001446895.1 656 656 Aeromonas allosaccharophila TTU2014-159ASC Proteobacteria LKKI01000013.1 621 GCA_000006745.1 243277 666 Vibrio cholerae O1 biovar El Tor str. N16961 N16961 Proteobacteria AE003852.1 622 GCA_000016245.1 345073 666 Vibrio cholerae O395 O395 Proteobacteria CP000627.1 623 GCA_000021605.1 579112 666 Vibrio cholerae M66-2 M66-2 Proteobacteria CP001233.1 624 GCA_000021625.1 345073 666 Vibrio cholerae O395 O395 Proteobacteria CP001235.1 625 GCA_000022585.1 593588 666 Vibrio cholerae MJ-1236 MJ-1236 Proteobacteria CP001485.1 626 GCA_000153865.1 412967 666 Vibrio cholerae MAK 757 MAK 757 Proteobacteria GG774578.1 627 GCA_000153945.1 417399 666 Vibrio cholerae NCTC 8457 NCTC 8457 Proteobacteria DS178000.1 628 GCA_000153965.1 417400 666 Vibrio cholerae B33 B33 Proteobacteria DS178064.1 629 GCA_000166455.2 914149 666 Vibrio cholerae O1 str. 2010EL-1786 2010EL-1786 Proteobacteria CP003069.1 630 GCA_000167935.2 345076 666 Vibrio cholerae V52 V52 Proteobacteria KQ410498.1 631 GCA_000168915.3 412614 666 Vibrio cholerae 2740-80 2740-80 Proteobacteria KQ257329.1 632 GCA_000174275.1 593589 666 Vibrio cholerae RC9 RC9 Proteobacteria ACHX01000011.1 633 GCA_000174315.1 417400 666 Vibrio cholerae B33 B33 Proteobacteria ACHZ01000017.1 634 GCA_000174335.1 593587 666 Vibrio cholerae BX 330286 BX 330286 Proteobacteria ACIA01000006.1 635 GCA_000175695.1 661513 666 Vibrio cholerae CIRS101 CIRS 101 Proteobacteria ACVW01000011.1 636 GCA_000176395.1 675807 666 Vibrio cholerae RC27 RC27 Proteobacteria ADAI01000041.1 637 GCA_000176435.1 675808 666 Vibrio cholerae INDRE 91/1 INDRE 91/1 Proteobacteria ADAK01000056.1 638 GCA_000220725.2 991935 666 Vibrio cholerae HC-49A2 HC-49A2 Proteobacteria AFOM01000018.1 639 GCA_000220745.3 991930 666 Vibrio cholerae HCUF01 HCUF01 Proteobacteria AFOO01000018.1 640 GCA_000221345.1 991961 666 Vibrio cholerae HC-40A1 HC-40A1 Proteobacteria GL988221.1 641 GCA_000221365.1 991965 666 Vibrio cholerae HC-48A1 HC-48A1 Proteobacteria GL988437.1 642 GCA_000221385.1 991984 666 Vibrio cholerae HC-70A1 HC-70A1 Proteobacteria GL988603.1 643 GCA_000221425.1 991989 666 Vibrio cholerae HFU-02 HFU-02 Proteobacteria GL988896.1 644 GCA_000221485.1 991959 666 Vibrio cholerae HC-38A1 HC-38A1 Proteobacteria GL989435.1 645 GCA_000234375.2 991950 666 Vibrio cholerae HC-06A1 HC-06A1 Proteobacteria AGUI01000118.1 646 GCA_000234395.2 991933 666 Vibrio cholerae HC-23A1 HC-23A1 Proteobacteria AGUM01000011.1 647 GCA_000234415.2 991955 666 Vibrio cholerae HC-28A1 HC-28A1 Proteobacteria AGUN01000124.1 648 GCA_000234435.2 991938 666 Vibrio cholerae HC-43A1 HC-43A1 Proteobacteria AGUQ01000018.1 649 GCA_000234455.3 991942 666 Vibrio cholerae HC-61A1 HC-61A1 Proteobacteria AGUS01000010.1 650 GCA_000234865.1 991966 666 Vibrio cholerae HC-48B2 HC-48B2 Proteobacteria JH377577.1 651 GCA_000234885.1 991957 666 Vibrio cholerae HC-33A2 HC-33A2 Proteobacteria JH377410.1 652 GCA_000234905.1 991956 666 Vibrio cholerae HC-32A1 HC-32A1 Proteobacteria JH377638.1 653 GCA_000234925.1 991954 666 Vibrio cholerae HC-22A1 HC-22A1 Proteobacteria JH377759.1 654 GCA_000234945.1 991953 666 Vibrio cholerae HC-21A1 HC-21A1 Proteobacteria JH377863.1 655 GCA_000234965.1 991952 666 Vibrio cholerae HC-19A1 HC-19A1 Proteobacteria JH377908.1 656 GCA_000250855.1 1134456 666 Vibrio cholerae IEC224 IEC224 Proteobacteria CP003330.1 657 GCA_000279185.1 991963 666 Vibrio cholerae HC-42A1 HC-42A1 Proteobacteria JH724360.1 658 GCA_000279205.1 991974 666 Vibrio cholerae HC-56A2 HC-56A2 Proteobacteria JH724528.1 659 GCA_000279245.1 991926 666 Vibrio cholerae CP1041(14) CP1041(14) Proteobacteria ALDE01000022.1 660 GCA_000279305.1 991923 666 Vibrio cholerae CP1032(5) CP1032(5) Proteobacteria ALDA01000015.1 661 GCA_000279325.1 991925 666 Vibrio cholerae CP1038(11) CP1038(11) Proteobacteria ALDC01000012.1 662 GCA_000279345.1 991927 666 Vibrio cholerae CP1042(15) CP1042(15) Proteobacteria ALDF01000012.1 663 GCA_000279375.1 991976 666 Vibrio cholerae HC-57A2 HC-57A2 Proteobacteria JH724633.1 664 GCA_000279395.1 991929 666 Vibrio cholerae CP1048(21) CP1048(21) Proteobacteria ALDJ01000013.1 665 GCA_000279415.1 991932 666 Vibrio cholerae HC-20A2 HC-20A2 Proteobacteria ALDL01000012.1 666 GCA_000279455.1 991940 666 Vibrio cholerae HC-46A1 HC-46A1 Proteobacteria ALDQ01000020.1 667 GCA_000279555.1 991990 666 Vibrio cholerae CP1030(3) CP1030(3) Proteobacteria JH724671.1 668 GCA_000279785.1 991995 666 Vibrio cholerae CP1047(20) CP1047(20) Proteobacteria JH724786.1 669 GCA_000279955.1 992003 666 Vibrio cholerae HC-47A1 HC-47A1 Proteobacteria JH724973.1 670 GCA_000281655.1 991928 666 Vibrio cholerae CP1046(19) CP1046(19) Proteobacteria ALDH01000023.1 671 GCA_000302755.1 991962 666 Vibrio cholerae HC-41A1 HC-41A1 Proteobacteria JH941098.1 672 GCA_000302775.1 991960 666 Vibrio cholerae HC-39A1 HC-39A1 Proteobacteria JH942109.1 673 GCA_000302985.1 991993 666 Vibrio cholerae CP1040(13) CP1040(13) Proteobacteria JH942548.1 674 GCA_000303045.1 991994 666 Vibrio cholerae CP1044(17) CP1044(17) Proteobacteria JH942687.1 675 GCA_000303065.1 991996 666 Vibrio cholerae CP1050(23) CP1050(23) Proteobacteria JH941754.1 676 GCA_000303125.1 1000951 666 Vibrio cholerae HC-81A2 HC-81A2 Proteobacteria JH941263.1 677 GCA_000304755.1 991924 666 Vibrio cholerae CP1033(6) CP1033(6) Proteobacteria AJRL01000031.1 678 GCA_000304935.2 991951 666 Vibrio cholerae HC-17A1 HC-17A1 Proteobacteria JH966643.1 679 GCA_000304995.1 991968 666 Vibrio cholerae HC-50A2 HC-50A2 Proteobacteria JH967085.1 680 GCA_000305075.2 992006 666 Vibrio cholerae HC-62A1 HC-62A1 Proteobacteria JH967577.1 681 GCA_000305095.2 991987 666 Vibrio cholerae HC-77A1 HC-77A1 Proteobacteria JH967738.1 682 GCA_000305585.2 991958 666 Vibrio cholerae HC-37A1 HC-37A1 Proteobacteria JH973721.1 683 GCA_000305625.2 992007 666 Vibrio cholerae HC-62B1 HC-62B1 Proteobacteria JH976192.1 684 GCA_000305675.2 1000952 666 Vibrio cholerae HC-17A2 HC-17A2 Proteobacteria JH974083.1 685 GCA_000305695.2 992008 666 Vibrio cholerae HC-69A1 HC-69A1 Proteobacteria JH974129.1 686 GCA_000318485.2 991931 666 Vibrio cholerae HC-7A1 HC-7A1 Proteobacteria AGVA02000011.1 687 GCA_000318505.2 991936 666 Vibrio cholerae HC-81A1 HC-81A1 Proteobacteria AGVC02000007.1 688 GCA_000327105.3 991980 666 Vibrio cholerae HC-64A1 HC-64A1 Proteobacteria KB454193.1 689 GCA_000327125.3 991981 666 Vibrio cholerae HC-65A1 HC-65A1 Proteobacteria KB454294.1 690 GCA_000327145.3 991982 666 Vibrio cholerae HC-67A1 HC-67A1 Proteobacteria KB454387.1 691 GCA_000327165.3 991983 666 Vibrio cholerae HC-68A1 HC-68A1 Proteobacteria KB454110.1 692 GCA_000327185.3 991985 666 Vibrio cholerae HC-71A1 HC-71A1 Proteobacteria KB454017.1 693 GCA_000327205.3 1000953 666 Vibrio cholerae HC-72A2 HC-72A2 Proteobacteria KB453970.1 694 GCA_000327245.3 991988 666 Vibrio cholerae HC-80A1 HC-80A1 Proteobacteria KB453739.1 695 GCA_000338075.1 1224154 666 Vibrio cholerae O1 str. Inaba G4222 Inaba G4222 Proteobacteria CM001785.1 696 GCA_000348045.2 1095661 666 Vibrio cholerae O1 str. 116059 116059 Proteobacteria KB661123.1 697 GCA_000348105.2 1095660 666 Vibrio cholerae O1 str. 95412 95412 Proteobacteria KB662042.1 698 GCA_000348125.2 1095645 666 Vibrio cholerae O1 str. AG-7404 AG-7404 Proteobacteria KB662659.1 699 GCA_000348145.2 1095644 666 Vibrio cholerae O1 str. AG-8040 AG-8040 Proteobacteria KB663097.1 700 GCA_000348165.2 1095651 666 Vibrio cholerae O1 str. EC-0009 EC-0009 Proteobacteria KB663518.1 701 GCA_000348185.2 1095652 666 Vibrio cholerae O1 str. EC-0012 EC-0012 Proteobacteria KB661760.1 702 GCA_000348205.2 1095653 666 Vibrio cholerae O1 str. EC-0027 EC-0027 Proteobacteria KB663429.1 703 GCA_000348225.2 1095654 666 Vibrio cholerae O1 str. EC-0051 EC-0051 Proteobacteria KB661629.1 704 GCA_000348245.2 1095640 666 Vibrio cholerae O1 str. EDC-020 EDC-020 Proteobacteria KB663379.1 705 GCA_000348265.2 1095641 666 Vibrio cholerae O1 str. EDC-022 EDC-022 Proteobacteria KB663300.1 706 GCA_000348285.2 1095646 666 Vibrio cholerae O1 str. EM-1536 EM-1536 Proteobacteria KB662939.1 707 GCA_000348305.2 1095647 666 Vibrio cholerae O1 str. EM-1546 EM-1546 Proteobacteria KB663192.1 708 GCA_000348325.2 1095648 666 Vibrio cholerae O1 str. EM-1626 EM-1626 Proteobacteria KB662879.1 709 GCA_000348365.1 1095650 666 Vibrio cholerae O1 str. EM-1727 EM-1727 Proteobacteria KB662387.1 710 GCA_000348385.2 1095655 666 Vibrio cholerae O1 str. NHCC-004A NHCC-004A Proteobacteria KB662555.1 711 GCA_000348405.2 1095656 666 Vibrio cholerae O1 str. NHCC-006C NHCC-006C Proteobacteria KB662604.1 712 GCA_000348445.2 1095658 666 Vibrio cholerae O1 str. NHCC-010F NHCC-010F Proteobacteria KB662324.1 713 GCA_000348465.2 1095642 666 Vibrio cholerae O1 str. Nep-21106 Nep-21106 Proteobacteria KB661614.1 714 GCA_000348485.2 1095643 666 Vibrio cholerae O1 str. Nep-21113 Nep-21113 Proteobacteria KB662142.1 715 GCA_000348505.2 1095639 666 Vibrio cholerae O1 str. PCS-023 PCS-023 Proteobacteria KB661938.1 716 GCA_000569115.2 1095638 666 Vibrio cholerae O1 str. PCS-022 PCS-022 Proteobacteria KK037973.1 717 GCA_000705295.1 686 666 Vibrio cholerae O1 biovar El Tor M-1293 Proteobacteria JFFW01000006.1 718 GCA_000710155.1 1343738 666 Vibrio cholerae 2012EL-1759 2012EL-1759 Proteobacteria JNEW01000011.1 719 GCA_000710445.1 686 666 Vibrio cholerae O1 biovar El Tor Ogawa RND19188 Proteobacteria JNGU01000059.1 720 GCA_000710455.1 686 666 Vibrio cholerae O1 biovar El Tor Ogawa RND19191 Proteobacteria JNGT01000078.1 721 GCA_000736795.1 666 666 Vibrio cholerae 5473-62 Proteobacteria JIDI01000041.1 722 GCA_000736855.1 666 666 Vibrio cholerae 1311-69 Proteobacteria JIDJ01000055.1 723 GCA_000736865.1 666 666 Vibrio cholerae NIH41 Proteobacteria JIDH01000006.1 724 GCA_000736925.1 666 666 Vibrio cholerae 981-75 Proteobacteria JIDM01000006.1 725 GCA_000753725.1 686 666 Vibrio cholerae O1 biovar El Tor MAK676 Proteobacteria JRBD01000007.1 726 GCA_000765415.1 666 666 Vibrio cholerae 2012EL-2176 Proteobacteria CP007634.1 727 GCA_000786335.1 666 666 Vibrio cholerae 81 Proteobacteria JRQM01000007.1 728 GCA_000786345.1 666 666 Vibrio cholerae 3265/80 Proteobacteria JRQL01000006.1 729 GCA_000829215.1 1420885 666 Vibrio cholerae MS6 MS6 Proteobacteria AP014524.1 730 GCA_000939665.1 686 666 Vibrio cholerae O1 biovar El Tor MAK97 Proteobacteria JZCB01000007.1 731 GCA_000953755.1 666 666 Vibrio cholerae InDRE 4354 Proteobacteria JZUA01000014.1 732 GCA_000953775.1 666 666 Vibrio cholerae InDRE 4262 Proteobacteria JZUB01000015.1 733 GCA_000960915.1 686 666 Vibrio cholerae O1 biovar El Tor M1429 Proteobacteria LAEM01000007.1 734 GCA_000961975.1 666 666 Vibrio cholerae D-35 Proteobacteria LAED01000005.1 735 GCA_000963555.1 686 666 Vibrio cholerae O1 biovar El Tor FJ147 Proteobacteria CP009042.1 736 GCA_000965285.1 686 666 Vibrio cholerae O1 biovar El Tor R17644 Proteobacteria JRTW01000033.1 737 GCA_000966385.1 666 666 Vibrio cholerae M818 Proteobacteria LAHM01000006.1 738 GCA_001029975.1 666 666 Vibrio cholerae YN2011004 Proteobacteria KQ087383.1 739 GCA_001030015.1 666 666 Vibrio cholerae YN97083 Proteobacteria KQ087448.1 740 GCA_001030035.1 666 666 Vibrio cholerae YN89004 Proteobacteria KQ087512.1 741 GCA_001045415.1 666 666 Vibrio cholerae TSY216 Proteobacteria CP007653.1 742 GCA_001246285.1 666 666 Vibrio cholerae A346(2) Proteobacteria CWQG01000013.1 743 GCA_001247245.1 666 666 Vibrio cholerae 4679 Proteobacteria CWOC01000002.1 744 GCA_001247525.1 666 666 Vibrio cholerae A346(1) Proteobacteria CWSM01000004.1 745 GCA_001247835.1 666 666 Vibrio cholerae 1627 Proteobacteria CWNK01000005.1 746 GCA_001247885.1 666 666 Vibrio cholerae IDHO1_726 Proteobacteria CWQN01000008.1 747 GCA_001248135.1 666 666 Vibrio cholerae A186 Proteobacteria CWPM01000020.1 748 GCA_001248195.1 666 666 Vibrio cholerae A60 Proteobacteria CWOY01000004.1 749 GCA_001248235.1 666 666 Vibrio cholerae A217 Proteobacteria CWPV01000006.1 750 GCA_001248365.1 666 666 Vibrio cholerae A397 Proteobacteria CWQB01000004.1 751 GCA_001248465.1 666 666 Vibrio cholerae V212-1 Proteobacteria CWPH01000003.1 752 GCA_001248505.1 666 666 Vibrio cholerae 4519 Proteobacteria CWRZ01000004.1 753 GCA_001248645.1 666 666 Vibrio cholerae 6214 Proteobacteria CWQT01000002.1 754 GCA_001248865.1 666 666 Vibrio cholerae A193 Proteobacteria CWPN01000010.1 755 GCA_001248905.1 666 666 Vibrio cholerae A70 Proteobacteria CWOM01000009.1 756 GCA_001248945.1 666 666 Vibrio cholerae A213 Proteobacteria CWPS01000006.1 757 GCA_001249085.1 666 666 Vibrio cholerae MBRN14 Proteobacteria CWNR01000004.1 758 GCA_001249315.1 666 666 Vibrio cholerae 4322 Proteobacteria CWOX01000006.1 759 GCA_001249515.1 666 666 Vibrio cholerae 6191 Proteobacteria CWQQ01000006.1 760 GCA_001249715.1 666 666 Vibrio cholerae GP152 Proteobacteria CWQK01000006.1 761 GCA_001249815.1 666 666 Vibrio cholerae 7682 Proteobacteria CWNO01000007.1 762 GCA_001249995.1 666 666 Vibrio cholerae A177 Proteobacteria CWNQ01000004.1 763 GCA_001250035.1 666 666 Vibrio cholerae GP145 Proteobacteria CWQL01000008.1 764 GCA_001250195.1 666 666 Vibrio cholerae MJ1485 Proteobacteria CWNZ01000023.1 765 GCA_001250235.1 666 666 Vibrio cholerae A19 Proteobacteria CWSH01000005.1 766 GCA_001250435.1 666 666 Vibrio cholerae 4642 Proteobacteria CWPE01000005.1 767 GCA_001250455.1 666 666 Vibrio cholerae A32 Proteobacteria CWNM01000004.1 768 GCA_001250615.1 666 666 Vibrio cholerae A488(2) Proteobacteria CWOA01000007.1 769 GCA_001250795.1 666 666 Vibrio cholerae MBN17 Proteobacteria CWNW01000004.1 770 GCA_001250935.1 666 666 Vibrio cholerae A61 Proteobacteria CWOS01000008.1 771 GCA_001251155.1 666 666 Vibrio cholerae A130 Proteobacteria CWNY01000012.1 772 GCA_001251415.1 666 666 Vibrio cholerae A487(2) Proteobacteria CWQX01000001.1 773 GCA_001251435.1 666 666 Vibrio cholerae 7687 Proteobacteria CWRG01000008.1 774 GCA_001251495.1 666 666 Vibrio cholerae GP16 Proteobacteria CWQE01000007.1 775 GCA_001251595.1 666 666 Vibrio cholerae A483 Proteobacteria CWQA01000003.1 776 GCA_001251935.1 666 666 Vibrio cholerae 6194 Proteobacteria CWQW01000017.1 777 GCA_001251975.1 666 666 Vibrio cholerae 6212 Proteobacteria CWQV01000004.1 778 GCA_001252055.1 666 666 Vibrio cholerae 4551 Proteobacteria CWRK01000003.1 779 GCA_001252075.1 666 666 Vibrio cholerae 4121 Proteobacteria CWRP01000009.1 780 GCA_001252495.1 666 666 Vibrio cholerae A18 Proteobacteria CWSJ01000005.1 781 GCA_001252675.1 666 666 Vibrio cholerae V5 Proteobacteria CWNT01000007.1 782 GCA_001252775.1 666 666 Vibrio cholerae 6215 Proteobacteria CWRD01000009.1 783 GCA_001252855.1 666 666 Vibrio cholerae 4111 Proteobacteria CWOZ01000011.1 784 GCA_001252875.1 666 666 Vibrio cholerae A152 Proteobacteria CWOB01000008.1 785 GCA_001252895.1 666 666 Vibrio cholerae 4585 Proteobacteria CWRS01000004.1 786 GCA_001253035.1 666 666 Vibrio cholerae 1346 Proteobacteria CWRJ01000005.1 787 GCA_001253055.1 666 666 Vibrio cholerae 4600 Proteobacteria CWRW01000004.1 788 GCA_001253155.1 666 666 Vibrio cholerae A154 Proteobacteria CWNX01000009.1 789 GCA_001253175.1 666 666 Vibrio cholerae A184 Proteobacteria CWOO01000008.1 790 GCA_001253235.1 666 666 Vibrio cholerae A29 Proteobacteria CWSI01000004.1 791 GCA_001253295.1 666 666 Vibrio cholerae A185 Proteobacteria CWOK01000008.1 792 GCA_001253315.1 666 666 Vibrio cholerae GP140 Proteobacteria CWRA01000011.1 793 GCA_001253435.1 666 666 Vibrio cholerae A51 Proteobacteria CWOW01000014.1 794 GCA_001253495.1 666 666 Vibrio cholerae A111 Proteobacteria CWOV01000006.1 795 GCA_001253555.1 666 666 Vibrio cholerae A279 Proteobacteria CWQC01000021.1 796 GCA_001253575.1 666 666 Vibrio cholerae GP8 Proteobacteria CWNN01000007.1 797 GCA_001253615.1 666 666 Vibrio cholerae A219 Proteobacteria CWPQ01000002.1 798 GCA_001253695.1 666 666 Vibrio cholerae A31 Proteobacteria CWSK01000004.1 799 GCA_001253755.1 666 666 Vibrio cholerae VC51 Proteobacteria CWOI01000007.1 800 GCA_001253835.1 666 666 Vibrio cholerae A49 Proteobacteria CWPI01000004.1 801 GCA_001254055.1 666 666 Vibrio cholerae A4 Proteobacteria CWSC01000005.1 802 GCA_001254255.1 666 666 Vibrio cholerae A481 Proteobacteria CWQD01000029.1 803 GCA_001254335.1 666 666 Vibrio cholerae 4784 Proteobacteria CWRV01000004.1 804 GCA_001254355.1 666 666 Vibrio cholerae MG116226 Proteobacteria CWSQ01000005.1 805 GCA_001254435.1 666 666 Vibrio cholerae GP160 Proteobacteria CWSB01000005.1 806 GCA_001254535.1 666 666 Vibrio cholerae A59 Proteobacteria CWOG01000006.1 807 GCA_001254575.1 666 666 Vibrio cholerae A103 Proteobacteria CWOP01000008.1 808 GCA_001254635.1 666 666 Vibrio cholerae 4623 Proteobacteria CWRM01000004.1 809 GCA_001254655.1 666 666 Vibrio cholerae A10 Proteobacteria CWSF01000005.1 810 GCA_001254675.1 666 666 Vibrio cholerae A5 Proteobacteria CWSE01000005.1 811 GCA_001254895.1 666 666 Vibrio cholerae MG116025 Proteobacteria CWNS01000006.1 812 GCA_001254915.1 666 666 Vibrio cholerae A180 Proteobacteria CWOR01000008.1 813 GCA_001254955.1 666 666 Vibrio cholerae 6197 Proteobacteria CWRB01000040.1 814 GCA_001255155.1 666 666 Vibrio cholerae A22 Proteobacteria CWNL01000007.1 815 GCA_001255295.1 666 666 Vibrio cholerae A200 Proteobacteria CWPW01000009.1 816 GCA_001255575.1 666 666 Vibrio cholerae A6 Proteobacteria CWSG01000004.1 817 GCA_001255835.1 666 666 Vibrio cholerae 4536 Proteobacteria CWSA01000001.1 818 GCA_001255915.1 666 666 Vibrio cholerae 7685 Proteobacteria CWRI01000009.1 819 GCA_001256015.1 666 666 Vibrio cholerae 4663 Proteobacteria CWOD01000006.1 820 GCA_001256355.1 666 666 Vibrio cholerae PRL5 Proteobacteria CWQI01000001.1 821 GCA_001256655.1 666 666 Vibrio cholerae A209 Proteobacteria CWPU01000001.1 822 GCA_001256675.1 666 666 Vibrio cholerae A241 Proteobacteria CWPX01000008.1 823 GCA_001256835.1 666 666 Vibrio cholerae A231 Proteobacteria CWPP01000001.1 824 GCA_001257035.1 666 666 Vibrio cholerae 4110 Proteobacteria CWOT01000002.1 825 GCA_001257075.1 666 666 Vibrio cholerae A488(1) Proteobacteria CWSN01000007.1 826 GCA_001257255.1 666 666 Vibrio cholerae V109 Proteobacteria CWOJ01000008.1 827 GCA_001257835.1 666 666 Vibrio cholerae 6193 Proteobacteria CWQZ01000004.1 828 GCA_001257895.1 666 666 Vibrio cholerae 4593 Proteobacteria CWRL01000004.1 829 GCA_001258495.1 666 666 Vibrio cholerae 4656 Proteobacteria CWOQ01000004.1 830 GCA_001258535.1 666 666 Vibrio cholerae 7686 Proteobacteria CWRH01000019.1 831 GCA_001258555.1 666 666 Vibrio cholerae 4488 Proteobacteria CWRU01000004.1 832 GCA_001258995.1 666 666 Vibrio cholerae 4646 Proteobacteria CWRX01000004.1 833 GCA_001259055.1 666 666 Vibrio cholerae 4113 Proteobacteria CWRQ01000003.1 834 GCA_001259135.1 666 666 Vibrio cholerae 4605 Proteobacteria CWON01000005.1 835 GCA_001259235.1 666 666 Vibrio cholerae 4552 Proteobacteria CWRT01000003.1 836 GCA_001259315.1 666 666 Vibrio cholerae A131 Proteobacteria CWOL01000002.1 837 GCA_001259475.1 666 666 Vibrio cholerae 6210 Proteobacteria CWQO01000008.1 838 GCA_001259495.1 666 666 Vibrio cholerae A76 Proteobacteria CWOF01000008.1 839 GCA_001259555.1 666 666 Vibrio cholerae A46 Proteobacteria CWOH01000007.1 840 GCA_001259575.1 666 666 Vibrio cholerae A390 Proteobacteria CWQF01000001.1 841 GCA_001259635.1 666 666 Vibrio cholerae A68 Proteobacteria CWNV01000008.1 842 GCA_001259715.1 666 666 Vibrio cholerae 4538 Proteobacteria CWRO01000004.1 843 GCA_001259795.1 666 666 Vibrio cholerae A389 Proteobacteria CWQH01000016.1 844 GCA_001259915.1 666 666 Vibrio cholerae A155 Proteobacteria CWOE01000008.1 845 GCA_001259935.1 666 666 Vibrio cholerae A109 Proteobacteria CWPD01000024.1 846 GCA_001260175.1 666 666 Vibrio cholerae 4662 Proteobacteria CWRY01000001.1 847 GCA_001260295.1 666 666 Vibrio cholerae 1362 Proteobacteria CWRR01000004.1 848 GCA_001260335.1 666 666 Vibrio cholerae 4339 Proteobacteria CWRN01000004.1 849 GCA_001260915.1 666 666 Vibrio cholerae A66 Proteobacteria CWOU01000006.1 850 GCA_001260995.1 666 666 Vibrio cholerae A27 Proteobacteria CWSD01000004.1 851 GCA_001261075.1 666 666 Vibrio cholerae PRL64 Proteobacteria CWQM01000006.1 852 GCA_001261095.1 666 666 Vibrio cholerae A482 Proteobacteria CWPZ01000016.1 853 GCA_001261135.1 666 666 Vibrio cholerae A245 Proteobacteria CWPY01000019.1 854 GCA_001261515.1 666 666 Vibrio cholerae A201 Proteobacteria CWPT01000008.1 855 GCA_001261535.1 666 666 Vibrio cholerae A487(1) Proteobacteria CWSP01000004.1 856 GCA_001261555.1 666 666 Vibrio cholerae 6201 Proteobacteria CWQP01000004.1 857 GCA_001281585.1 686 666 Vibrio cholerae O1 biovar El Tor 31 Proteobacteria LIFF01000004.1 858 GCA_001281595.1 686 666 Vibrio cholerae O1 biovar El Tor 39 Proteobacteria LIFG01000007.1 859 GCA_001281615.1 686 666 Vibrio cholerae O1 biovar El Tor 43 Proteobacteria LIFH01000031.1 860 GCA_001281665.1 686 666 Vibrio cholerae O1 biovar El Tor 56 Proteobacteria LIFI01000004.1 861 GCA_001282605.1 666 666 Vibrio cholerae EC-051 Proteobacteria LFZZ01000030.1 862 GCA_001318185.1 1433144 666 Vibrio cholerae O1 str. KW3 KW3 Proteobacteria CP006947.1 863 GCA_001471455.1 666 666 Vibrio cholerae ATCC 11629 Proteobacteria LOSM01000005.1 864 GCA_001515095.1 666 666 Vibrio cholerae ME-7 Proteobacteria LQBW01000005.1 865 GCA_001517845.1 686 666 Vibrio cholerae O1 biovar El Tor M1275 Proteobacteria LRAF01000011.1 866 GCA_001517855.1 686 666 Vibrio cholerae O1 biovar El Tor M1275D Proteobacteria LRAG01000003.1 867 GCA_001521835.1 666 666 Vibrio cholerae M888 Proteobacteria LRBH01000022.1 868 GCA_001525525.1 666 666 Vibrio cholerae ATCC 25874 Proteobacteria LRIK01000002.1 869 GCA_001543465.1 686 666 Vibrio cholerae O1 biovar El Tor Inaba PIC018 Proteobacteria LQHM01000074.1 870 GCA_000260675.1 1095743 736 Haemophilus paraphrohaemolyticus HK411 HK411 Proteobacteria AJMU01000074.1 871 GCA_000771955.1 750 750 Gallibacterium anatis F0003406 Proteobacteria JPXV01000009.1 872 GCA_000772275.1 750 750 Gallibacterium anatis 10672/9 Proteobacteria JPTU01000008.1 873 GCA_000772385.1 1396511 750 Gallibacterium anatis 7990 7990 Proteobacteria JPJL01000011.1 874 GCA_000024665.1 59374 833 Fibrobacter succinogenes subsp. succinogenes S85 S85 Fibrobacteres CP001792.1 875 GCA_000146505.1 59374 833 Fibrobacter succinogenes subsp. succinogenes S85 S85 Fibrobacteres CP002158.1 876 GCA_000158275.2 457405 851 Fusobacterium nucleatum subsp. animalis 7_1 7_1 Fusobacteria CP007062.1 877 GCA_000234075.2 693991 851 Fusobacterium nucleatum subsp. polymorphum F0401 F0401 Fusobacteria ADDB02000001.1 878 GCA_000479285.1 1204474 851 Fusobacterium nucleatum CTI-1 CTI-1 Fusobacteria KI518459.1 879 GCA_000158215.3 469599 860 Fusobacterium periodonticum 2_1_31 2_1_31 Fusobacteria KN173678.1 880 GCA_000160475.1 546275 860 Fusobacterium periodonticum ATCC 33693 ATCC 33693 Fusobacteria GG665893.1 881 GCA_000015485.1 391774 881 Desulfovibrio vulgaris DP4 DP4 Proteobacteria CP000527.1 882 GCA_000025305.1 591001 905 Acidaminococcus fermentans DSM 20731 DSM 20731 Firmicutes CP001859.1 883 GCA_000021865.1 272942 1061 Rhodobacter capsulatus SB 1003 SB 1003 Proteobacteria CP001312.1 884 GCA_000505785.1 1415160 1061 Rhodobacter capsulatus DE442 DE442 Proteobacteria AYPR01000015.1 885 GCA_000506425.2 1415162 1061 Rhodobacter capsulatus B6 B6 Proteobacteria AYQA01000010.1 886 GCA_000506565.2 1415163 1061 Rhodobacter capsulatus R121 R121 Proteobacteria AYQC01000013.1 887 GCA_000506965.2 1415161 1061 Rhodobacter capsulatus Y262 Y262 Proteobacteria AYQB01000018.1 888 GCA_000341585.2 317619 1223 Prochlorothrix hollandica PCC 9006 Cyanobacteria AJTX02000004.1 889 GCA_000740735.1 1229 1229 Nitrosococcus oceani AFC132 Proteobacteria JPFN01000044.1 890 GCA_001183895.1 1422 1422 Geobacillus stearothermophilus A1 Firmicutes LDNS01000331.1 891 GCA_001183915.1 1422 1422 Geobacillus stearothermophilus P3 Firmicutes LDNT01000009.1 892 GCA_001587395.1 1422 1422 Geobacillus stearothermophilus B4114 Firmicutes LQYY01000004.1 893 GCA_000415905.1 1337888 1462 Geobacillus kaustophilus GBlys GBlys Firmicutes BASG01000012.1 894 GCA_000353265.2 1198630 1516 Thermoanaerobacter thermohydrosulfuricus WC1 WC1 Firmicutes KB731278.1 895 GCA_000219125.2 1009370 2374 Acetonema longum DSM 6540 DSM 6540 Firmicutes AFGF01000017.1 896 GCA_000300715.1 1161912 2421 Thermosipho africanus H17ap60334 H17ap60334 Thermotogae AJIP01000035.1 897 GCA_000284255.1 983917 28068 Rubrivivax gelatinosus IL144 IL144 Proteobacteria AP012320.1 898 GCA_001467525.1 28082 28082 Legionella anisa WA-316-C3 Proteobacteria LNXS01000010.1 899 GCA_000178275.1 702443 28116 Bacteroides ovatus SD CMC 3f SD CMC 3f Bacteroidetes ADMO01000148.1 900 GCA_000017665.1 290339 28141 Cronobacter sakazakii ATCC BAA-894 ATCC BAA-894 Proteobacteria CP000783.1 901 GCA_000214745.2 930780 28141 Cronobacter sakazakii E899 E899 Proteobacteria AFMO01000120.1 902 GCA_000316155.1 1208664 28141 Cronobacter sakazakii 696 696 Proteobacteria CALF01000071.1 903 GCA_000319595.1 1208663 28141 Cronobacter sakazakii 701 701 Proteobacteria CALE01000616.1 904 GCA_000723765.1 1238450 28173 Vibrio nigripulchritudo SOn1 SOn1 Proteobacteria LK391965.1 905 GCA_000307105.1 651182 28223 Desulfobacula toluolica Tol2 Tol2 Proteobacteria FO203503.1 906 GCA_000757225.1 28450 28450 Burkholderia pseudomallei BEC Proteobacteria KN150953.1 907 GCA_000773415.1 1435374 28450 Burkholderia pseudomallei MSHR7500 MSHR7500 Proteobacteria JREN01000128.1 908 GCA_000774635.1 1434195 28450 Burkholderia pseudomallei MSHR4303 MSHR4303 Proteobacteria KN323039.1 909 GCA_000775025.1 1437004 28450 Burkholderia pseudomallei MSHR3709 MSHR3709 Proteobacteria KN323107.1 910 GCA_000775045.1 1435993 28450 Burkholderia pseudomallei MSHR2138 MSHR2138 Proteobacteria KN323181.1 911 GCA_001202135.1 28450 28450 Burkholderia pseudomallei P166/04 Proteobacteria CSLD01000016.1 912 GCA_001448845.1 1240693 28901 Salmonella enterica subsp. enterica serovar Rubislaw str. SA20030553 Proteobacteria LHTG01000011.1 SA20030553 913 GCA_000189775.3 858215 29329 Thermoanaerobacterium xylanolyticum LX-11 LX-11 Firmicutes CP002739.1 914 GCA_000369085.1 1217986 29430 Acinetobacter haemolyticus NIPH 261 NIPH 261 Proteobacteria KB849819.1 915 GCA_000015745.1 420246 33940 Geobacillus thermodenitrificans NG80-2 NG80-2 Firmicutes CP000557.1 916 GCA_000016185.1 414684 34018 Rhodospirillum centenum SW SW; ATCC 51521 Proteobacteria CP000613.2 917 GCA_000023345.1 543728 34073 Variovorax paradoxus S110 S110 Proteobacteria CP001635.1 918 GCA_000214275.3 686340 39775 Methylomicrobium album BG8 BG8 Proteobacteria CM001475.1 919 GCA_000175675.1 596318 40216 Acinetobacter radioresistens SK82 SK82 Proteobacteria ACVR01000061.1 920 GCA_000367985.1 40373 40373 Acinetobacter sp. CIP-A165 CIP A165 Proteobacteria KB849201.1 921 GCA_001273775.1 42253 42253 Nitrospira moscoviensis NSP M-1 Nitrospirae CP011801.1 922 GCA_000328625.1 748449 42422 Halobacteroides halobius DSM 5150 DSM 5150 Firmicutes CP003359.1 923 GCA_000154785.2 391595 42443 Roseobacter litoralis Och 149 Och 149 Proteobacteria CP002623.1 924 GCA_000350165.1 1293054 43595 Halanaerobium saccharolyticum subsp. saccharolyticum type strain:DSM 6643 Firmicutes CAUI01000005.1 DSM 6643 925 GCA_000238375.3 1117314 43655 Pseudoalteromonas citrea DSM 8771 NCIMB 1889 Proteobacteria AHBZ02000147.1 926 GCA_001298525.1 45610 45610 Psychrobacter urativorans R10.10B Proteobacteria CP012678.1 927 GCA_000147695.3 697303 46354 Thermoanaerobacter wiegelii Rt8.B1 Rt8.B1 Firmicutes CP002991.1 928 GCA_000186425.1 887898 47671 Lautropia mirabilis ATCC 51599 ATCC 51599 Proteobacteria GL636062.1 929 GCA_001432715.1 48296 48296 Acinetobacter pittii ABBL005 Proteobacteria LLCL01000049.1 930 GCA_000219855.1 1051632 53633 Sulfobacillus acidophilus TPY TPY Firmicutes CP002901.1 931 GCA_000237975.1 679936 53633 Sulfobacillus acidophilus DSM 10332 DSM 10332 Firmicutes CP003179.1 932 GCA_000749925.1 55207 55207 Pectobacterium betavasculorum NCPPB 2793 Proteobacteria JQHL01000017.1 933 GCA_001005725.1 56193 56193 Sphingobium chungbukense DJ77 Proteobacteria LBIC01000001.1 934 GCA_001529365.1 56812 56812 Shewanella frigidimarina Ag06-30 Proteobacteria LRDC01000001.1 935 GCA_000958425.1 61645 61645 Enterobacter asburiae 42192 Proteobacteria JZYJ01000004.1 936 GCA_001011855.1 61645 61645 Enterobacter asburiae GN02073 Proteobacteria LDCE01000036.1 937 GCA_001011955.1 61645 61645 Enterobacter asburiae GN02208 Proteobacteria LDCK01000037.1 938 GCA_001023015.1 61645 61645 Enterobacter asburiae GN04222 Proteobacteria LECX01000031.1 939 GCA_001471995.1 61645 61645 Enterobacter asburiae SMART_269 Proteobacteria LPQP01000010.1 940 GCA_001472305.1 61645 61645 Enterobacter asburiae SMART_454 Proteobacteria LPPZ01000027.1 941 GCA_001472715.1 61645 61645 Enterobacter asburiae SMART_763 Proteobacteria LPPF01000080.1 942 GCA_001022135.1 61648 61648 Kluyvera intermedia CAV1151 Proteobacteria CP011602.1 943 GCA_000317635.1 65093 65093 Halothece sp. PCC 7418 PCC 7418 Cyanobacteria CP003945.1 944 GCA_000021825.1 65393 65393 Cyanothece sp. PCC 7424 PCC 7424 Cyanobacteria CP001291.1 945 GCA_000832305.1 68895 68895 Cupriavidus basilensis 4G11 Proteobacteria CP010537.1 946 GCA_000169135.1 313624 70799 Nodularia spumigena CCY9414 CCY9414 Cyanobacteria AAVW01000117.1 947 GCA_000340565.3 313624 70799 Nodularia spumigena CCY9414 CCY9414 Cyanobacteria CP007203.2 948 GCA_000818015.1 1123016 74829 Pseudomonas balearica DSM 6083 DSM6083 (=SP1402) Proteobacteria CP007511.1 949 GCA_001458455.1 75695 75695 Chrysosporum ovalisporum UAM-MAO Cyanobacteria CDHJ01000123.1 950 GCA_000242075.2 883150 76832 Myroides odoratimimus CCUG 10230 CCUG 10230 Bacteroidetes KE161015.1 951 GCA_000026985.1 644651 79967 Erwinia pyrifoliae DSM 12163 DSM 12163 Proteobacteria FN392235.1 952 GCA_000027265.1 634499 79967 Erwinia pyrifoliae Ep1/96 Ep1/96 Proteobacteria FP236842.1 953 GCA_000327045.1 765912 80679 Thioflavicoccus mobilis 8321 8321 Proteobacteria CP003051.1 954 GCA_001458195.1 81569 81569 Ruegeria atlantica CECT 4292 Proteobacteria CYPU01000011.1 955 GCA_001586165.1 82983 82983 Obesumbacterium proteus DSM 2777 Proteobacteria CP014608.1 956 GCA_000438825.1 1348660 82996 Serratia plymuthica S13 Proteobacteria CP006566.1 957 GCA_000622345.1 1443112 83219 Sulfitobacter mediterraneus KCTC 32188 KCTC 32188 Proteobacteria JASH01000008.1 958 GCA_001605015.1 83263 83263 Aminobacter aminovorans KCTC 2477 Proteobacteria CP015005.1 959 GCA_000203935.1 94122 94122 Shewanella sp. ANA-3 ANA-3 Proteobacteria CP000469.1 960 GCA_000067205.1 94624 94624 Bordetella petrii DSM 12804 Proteobacteria AM902716.1 961 GCA_000333135.2 985077 95486 Burkholderia cenocepacia BC7 Proteobacteria ALIZ02000089.1 962 GCA_000333155.2 985076 95486 Burkholderia cenocepacia K56-2Valvano K56-2Valvano Proteobacteria ALJA02000012.1 963 GCA_000981305.1 95486 95486 Burkholderia cenocepacia K56-2 Proteobacteria LAUA01000017.1 964 GCA_001523855.1 101571 101571 Burkholderia ubonensis ABCPW-28 Proteobacteria LOVU01000053.1 965 GCA_001528985.1 101571 101571 Burkholderia ubonensis MSMB1162WGS Proteobacteria LPDS01000057.1 966 GCA_001530375.1 101571 101571 Burkholderia ubonensis MSMB1473WGS Proteobacteria LPFJ01000144.1 967 GCA_000317575.1 111780 102116 Stanieria cyanosphaera PCC 7437 PCC 7437 Cyanobacteria CP003653.1 968 GCA_000025645.1 580331 108150 Thermoanaerobacter italicus Ab9 Ab9 Firmicutes CP001936.1 969 GCA_000215105.1 743718 139208 Isoptericola variabilis 225 225 Actinobacteria CP002810.1 970 GCA_000024825.1 150340 150340 Vibrio antiquarius EX25 Proteobacteria CP001805.1 971 GCA_000152485.1 150340 150340 Vibrio antiquarius EX25 Proteobacteria DS267811.1 972 GCA_000759535.1 157783 157783 Pseudomonas cremoricolorata ND07 Proteobacteria CP009455.1 973 GCA_000012985.1 349521 158327 Hahella chejuensis KCTC 2396 KCTC 2396 Proteobacteria CP000155.1 974 GCA_001506165.1 158822 158822 Cedecea neteri ND02 Proteobacteria CP011427.1 975 GCA_000181515.1 161528 161528 Erythrobacter sp. SD-21 SD-21 Proteobacteria ABCG01000002.1 976 GCA_000069785.1 977880 164546 Cupriavidus taiwanensis LMG 19424 LMG19424 Proteobacteria CU633749.1 977 GCA_000010305.1 379066 173480 Gemmatimonas aurantiaca T-27 T-27 Gemmatimonadetes AP009153.1 978 GCA_000774145.1 1348058 183795 Pseudomonas mediterranea CFBP 5447 CFBP 5447 Proteobacteria KN322981.1 979 GCA_000255295.1 1144275 184914 Corallococcus coralloides DSM 2259 DSM 2259 Proteobacteria CP003389.1 980 GCA_000235975.2 1088721 205844 Novosphingobium pentaromativorans US6-1 US6-1 Proteobacteria AGFM01000037.1 981 GCA_000767465.1 1088721 205844 Novosphingobium pentaromativorans US6-1 US6-1 Proteobacteria CP009291.1 982 GCA_000091465.1 575788 212663 Vibrio tasmaniensis LGP32 LGP32 Proteobacteria FM954972.2 983 GCA_000165815.1 215689 215689 Erwinia sp. Ejp617 Ejp617 Proteobacteria CP002124.1 984 GCA_000015505.1 365044 216465 Polaromonas naphthalenivorans CJ2 CJ2 Proteobacteria CP000530.1 985 GCA_000264315.1 1163408 219571 Rhodanobacter fulvus Jip2 Jip2 Proteobacteria AJXU01000037.1 986 GCA_000315055.1 1129793 222814 Paraglaciecola polaris LMG 21857 LMG 21857 Proteobacteria BAER01000023.1 987 GCA_000317495.1 1173022 241425 Crinalium epipsammum PCC 9333 PCC 9333 Cyanobacteria CP003620.1 988 GCA_000742915.1 244366 244366 Klebsiella variicola BZ19 Proteobacteria JDWA01000007.1 989 GCA_001048495.1 246167 246167 Vibrio crassostreae J5-19 Proteobacteria CCJU01000026.1 990 GCA_001368875.1 246167 246167 Vibrio crassostreae J5-4 Proteobacteria CCJX01000059.1 991 GCA_001580835.1 257438 257438 Gluconobacter thailandicus LMG 1741 Proteobacteria LHZM01000066.1 992 GCA_000168275.1 262489 262489 delta proteobacterium MLMS-1 MLMS-1 Proteobacteria AAQF01000005.1 993 GCA_001548015.1 270351 270351 Methylobacterium aquaticum MA-22A Proteobacteria AP014704.1 994 GCA_000968535.1 1091494 271065 Methylomicrobium alcaliphilum 20Z 20Z Proteobacteria FO082060.1 995 GCA_000825645.1 271420 271420 Pseudomonas xanthomarina S11 Proteobacteria CCYE01000007.1 996 GCA_000280495.1 1177180 283686 Kosakonia radicincitans DSM 16656 DSM 16656 Proteobacteria JH725436.1 997 GCA_000691205.1 1455607 283686 Kosakonia radicincitans UMEnt01/12 UMEnt01/12 Proteobacteria JDYJ01000004.1 998 GCA_000317615.1 13035 292566 Dactylococcopsis salina PCC 8305 PCC 8305 Cyanobacteria CP003944.1 999 GCA_000517385.1 1294265 308892 Bacillus boroniphilus JCM 21738 JCM 21738 Firmicutes BAUW01000042.1 1000 GCA_000152965.1 314262 314262 Roseobacter sp. MED193 MED193 Proteobacteria CH902583.1 1001 GCA_000171815.1 314289 314289 Vibrio sp. AND4 AND4 Proteobacteria ABGR01000004.1 1002 GCA_001458175.1 321267 321267 Shimia marina CECT 7688 Proteobacteria CYPW01000010.1 1003 GCA_001544495.1 326475 326475 Paraburkholderia telluris Proteobacteria FCNZ01000045.1 1004 GCA_000013905.1 335284 330922 Psychrobacter cryohalolentis K5 K5 Proteobacteria CP000323.1 1005 GCA_000382885.1 1301087 332056 Sphingobium japonicum BiD32 BiD32 Proteobacteria CAVK010000098.1 1006 GCA_000015285.1 357804 357794 Psychromonas ingrahamii 37 37 Proteobacteria CP000510.1 1007 GCA_000302535.1 358220 358220 Acidovorax sp. KKS102 KKS102 Proteobacteria CP003872.1 1008 GCA_000242115.2 1117958 359110 Pseudomonas extremaustralis 14-3 substr. 14-3b 14-3 substr. 14-3b Proteobacteria AHIP01000001.1 1009 GCA_000145255.1 395494 370405 Gallionella capsiferriformans ES-2 ES-2 Proteobacteria CP002159.1 1010 GCA_000241365.2 386428 386428 Pseudoalteromonas sp. BSi20480 BSi20480 Proteobacteria BADX01000166.1 1011 GCA_001563285.1 407020 407020 Sphingobium sp. MI1205 MI1205 Proteobacteria CP005188.1 1012 GCA_000166355.1 632292 413888 Caldicellulosiruptor hydrothermalis 108 108 Firmicutes CP002219.1 1013 GCA_000177355.1 679191 419005 Prevotella amnii CRIS 21A-A CRIS 21A-A Bacteroidetes ADFQ01000093.1 1014 GCA_001553225.1 419005 419005 Prevotella amnii DNF00307 Bacteroidetes KQ960543.1 1015 GCA_000421925.1 1346790 420233 Sphingobium chinhatense IP26 IP26 Proteobacteria AUDA01000024.1 1016 GCA_001043885.1 1295136 427683 Methylobacterium platani JCM 14648 JCM 14648 Proteobacteria JXOD01000086.1 1017 GCA_000633575.2 1450518 440518 Sphingobium lucknowense F2 F2 Proteobacteria JANF02000055.1 1018 GCA_000023645.1 443144 443144 Geobacter sp. M21 M21 Proteobacteria CP001661.1 1019 GCA_000157035.2 457388 457388 Parabacteroides sp. 2_1_7 2_1_7 Bacteroidetes KQ236092.1 1020 GCA_001517385.1 466044 466044 Pannonibacter indicus DSM 23407 Proteobacteria CYHE01000022.1 1021 GCA_000143085.1 105559 473531 Nitrosococcus watsonii C-113 C-113 Proteobacteria CP002086.1 1022 GCA_000943805.1 484429 484429 Sphingobium sp. YBL2 YBL2 Proteobacteria CP010954.1 1023 GCA_000943805.1 484429 484429 Sphingobium sp. YBL2 YBL2 Proteobacteria CP010954.1 1024 GCA_000242435.1 742743 487173 Dialister succinatiphilus YIT 11850 YIT 11850 Firmicutes JH591187.1 1025 GCA_001527605.1 488732 488732 Burkholderia diffusa MSMB1544 Proteobacteria LOZQ01000052.1 1026 GCA_000173035.1 495036 495036 Geobacillus sp. G11MC16 G11MC16 Firmicutes ABVH01000002.1 1027 GCA_001545155.1 507626 507626 Halomonas chromatireducens AGD 8-3 Proteobacteria CP014226.1 1028 GCA_000245735.2 1129374 545533 Alishewanella jeotgali KCTC 22429 KCTC 22429 Proteobacteria AHTH01000002.1 1029 GCA_000225565.1 598467 598467 Brenneria sp. EniD312 EniD312 Proteobacteria CM001230.1 1030 GCA_001499735.1 610332 610332 Thiocapsa sp. KS1 KS1 Proteobacteria LN848258.1 1031 GCA_000188175.1 626939 626940 Phascolarctobacterium succinatutens YIT 12067 YIT 12067 Firmicutes GL830854.1 1032 GCA_000307475.1 658661 658661 Parabacteroides sp. D25 D25 Bacteroidetes JH976502.1 1033 GCA_001305515.1 665126 665126 Prosthecomicrobium hirschii 16 Proteobacteria LIYW01000001.1 1034 GCA_001579845.1 674703 674703 Rhodoplanes sp. Z2-YC6860 YC6860 Proteobacteria CP007440.1 1035 GCA_001077885.1 680026 680026 Photobacterium swingsii CAIM 1393 Proteobacteria LELC01000014.1 1036 GCA_000253255.1 702113 702113 Novosphingobium sp. PP1Y PP1Y Proteobacteria FR856862.1 1037 GCA_000253255.1 702113 702113 Novosphingobium sp. PP1Y PP1Y Proteobacteria FR856862.1 1038 GCA_000024465.1 488538 767892 Candidatus Puniceispirillum marinum IMCC1322 IMCC1322 Proteobacteria CP001751.1 1039 GCA_000422025.1 886559 886559 Geobacillus sp. WSUCF1 WSUCF1 Firmicutes ATCO01000102.1 1040 GCA_001580035.1 936474 936474 Sphingobium sp. 22B 22B Proteobacteria LTAB01000001.1 1041 GCA_000178975.2 1198114 940615 Granulicella tundricola MP5ACTX9 MP5ACTX9 Acidobacteria CP002480.1 1042 GCA_000422205.1 941449 941449 Desulfovibrio sp. X2 X2 Proteobacteria ATHV01000015.1 1043 GCA_000498695.1 977905 977905 Bacillus sp. 17376 17376 Firmicutes KI547189.1 1044 GCA_000801085.1 1076549 1076549 Pantoea rodasii ND03 Proteobacteria JTJJ01000016.1 1045 GCA_000474655.1 1231725 1089444 Dickeya solani D s0432-1 D s0432-1 Proteobacteria AMWE01000004.1 1046 GCA_000803195.1 1089444 1089444 Dickeya solani M005 Proteobacteria JSXD01000001.1 1047 GCA_000972705.2 1637645 1118279 Limnoraphis robusta CS-951 CS-951 Cyanobacteria LATL02000068.1 1048 GCA_001517305.1 1137284 1137284 Marinomonas fungiae JCM 18476 Proteobacteria CYHG01000005.1 1049 GCA_000282175.1 1144323 1144323 Pseudomonas sp. GM17 GM17 Proteobacteria AKJU01000007.1 1050 GCA_000282315.2 1144708 1144708 Pseudomonas sp. GM41(2012) GM41(2012) Proteobacteria AKJN02000007.1 1051 GCA_000264335.1 1162282 1162282 Rhodanobacter sp. 115 115 Proteobacteria AJXS01000176.1 1052 GCA_000407765.1 1169321 1169321 Escherichia sp. KTE114 KTE114 Proteobacteria KE136626.1 1053 GCA_000350705.1 1169331 1169331 Escherichia sp. KTE11 KTE11 Proteobacteria KB732246.1 1054 GCA_000407925.1 1169349 1169349 Escherichia sp. KTE31 KTE31 Proteobacteria KE136722.1 1055 GCA_001550165.1 1176302 1176302 Sphingobium sp. AM AM Proteobacteria LRUK01000005.1 1056 GCA_000408325.1 1182659 1182659 Escherichia sp. KTE52 KTE52 Proteobacteria KE138680.1 1057 GCA_000398905.1 1182695 1182695 Klebsiella sp. KTE92 KTE92 Proteobacteria KB976100.1 1058 GCA_000408525.1 1182697 1182697 Escherichia sp. KTE96 KTE96 Proteobacteria KE137149.1 1059 GCA_000408805.1 1182732 1182732 Escherichia sp. KTE159 KTE159 Proteobacteria KE137292.1 1060 GCA_000316175.1 1207075 1207075 Pseudomonas sp. UW4 UW4 Proteobacteria CP003880.1 1061 GCA_000801955.1 1217052 1217052 Ralstonia sp. A12 A12 Proteobacteria JSZO01000004.1 1062 GCA_000369405.1 1217707 1217707 Acinetobacter sp. ANC 3929 ANC 3929 Proteobacteria KB849994.1 1063 GCA_000342045.1 1244869 1244869 Magnetospirillum caucaseum SO-1 Proteobacteria AONQ01000075.1 1064 GCA_000437815.1 1262687 1262687 Acidaminococcus sp. CAG:542 Firmicutes FR902027.1 1065 GCA_000434475.1 1262870 1262870 Dialister sp. CAG:486 Firmicutes FR879630.1 1066 GCA_000495795.1 1282360 1282360 Asticcacaulis sp. AC460 AC460 Proteobacteria AWGD01000018.1 1067 GCA_000495835.1 1282361 1282361 Asticcacaulis sp. AC402 AC402 Proteobacteria AWGC01000023.1 1068 GCA_000738435.1 666509 1284658 Planktomarina temperata RCA23 RCA23 Proteobacteria CP003984.1 1069 GCA_001314555.1 1298881 1298881 Idiomarinaceae bacterium HL-53 Proteobacteria LIHO01000009.1 1070 GCA_001458075.1 1298881 1298881 Idiomarinaceae bacterium HL-53 HL-53 Proteobacteria LN899469.1 1071 GCA_000493055.1 1329826 1329826 Enterobacter sp. MGH 22 MGH 22 Proteobacteria KI535662.1 1072 GCA_000416315.1 1330035 1330035 Osedax symbiont Rs2 Proteobacteria ASZI01000003.1 1073 GCA_000445145.1 1114964 1332080 Sphingobium baderi LL03 LL03 Proteobacteria ATIB01000079.1 1074 GCA_001046655.1 1114964 1332080 Sphingobium baderi LL03 LL03 Proteobacteria KQ130471.1 1075 GCA_000445995.2 1345697 1345697 Geobacillus sp. JF8 JF8 Firmicutes CP006254.2 1076 GCA_000788395.1 1348114 1348114 Pseudoalteromonas sp. OCN003 OCN003 Proteobacteria CP009888.1 1077 GCA_001581925.1 1356306 1356306 Ferrovum sp. PN-J185 PN-J185 Proteobacteria LQZA01000004.1 1078 GCA_001263175.1 1391653 1391653 Vulgatibacter incomptus DSM 27710 Proteobacteria CP012332.1 1079 GCA_000475355.1 1396859 1396859 Marinobacter sp. C1S70 C1S70 Proteobacteria AXBW01000091.1 1080 GCA_000475415.1 1397528 1397528 Halomonas sp. PBN3 PBN3 Proteobacteria AXCA01000185.1 1081 GCA_001580565.1 1399969 1399969 Burkholderia megalochromosomata JC2949 Proteobacteria LRBF01000261.1 1082 GCA_001028775.2 1406431 1406431 Massilia sp. WF1 WF1 Proteobacteria LELH02000007.1 1083 GCA_000524665.1 1435973 1435973 Alcanivorax sp. 97CO-5 97CO-5 Proteobacteria KI965903.1 1084 GCA_000585055.1 1454003 1454003 Candidatus Accumulibacter sp. BA-92 Proteobacteria JEMX01000010.1 1085 GCA_000648925.1 1458357 1458357 Burkholderia jiangsuensis MP-1 Proteobacteria JFHF01000072.1 1086 GCA_000828915.1 1458426 1458426 Comamonadaceae bacterium B1 B1 Proteobacteria AP014569.1 1087 GCA_001368815.1 1462524 1462524 Paraliobacillus sp. PM-2 PM-2 Firmicutes CTEI01000001.1 1088 GCA_000828975.1 1469502 1469502 Burkholderiales bacterium GJ-E10 GJ-E10 Proteobacteria AP014683.1 1089 GCA_000611145.2 1470558 1470558 Cupriavidus sp. SK-3 SK-3 Proteobacteria JFJV02000088.1 1090 GCA_001402345.1 1481663 1481663 Vibrio metoecus YB5B06 Proteobacteria LBGQ01000030.1 1091 GCA_001402675.1 1481663 1481663 Vibrio metoecus YB5B04 Proteobacteria LBGP01000018.1 1092 GCA_000731675.1 1495066 1495066 Pseudomonas sp. WCS358 WCS358 Proteobacteria JMIT01000003.1 1093 GCA_000732325.1 1499968 1499968 Paenibacillus sp. TCA20 TCA20 Firmicutes BBIW01000009.1 1094 GCA_001529965.1 1503055 1503055 Burkholderia territorii MSMB1301WGS Proteobacteria LPEQ01000007.1 1095 GCA_001530725.1 1503055 1503055 Burkholderia territorii MSMB1502WGS Proteobacteria LPFQ01000127.1 1096 GCA_001530925.1 1503055 1503055 Burkholderia territorii MSMB1840WGS Proteobacteria LPGS01000070.1 1097 GCA_000734975.2 1504981 1504981 Halomonas sp. KO116 KO116 Proteobacteria CP011052.1 1098 GCA_000824845.1 1505933 1505933 Mesorhizobium sp. ORS3359 Proteobacteria CCNC01000071.1 1099 GCA_000824805.1 1505946 1505946 Mesorhizobium sp. SOD10 Proteobacteria CCNA01000056.1 1100 GCA_000802135.1 1531958 1531958 Desulfosporosinus sp. BICA1-9 Firmicutes JUEE01000226.1 1101 GCA_000757485.1 1532557 1532557 Achromobacter sp. RTa RTa Proteobacteria JPYO01000042.1 1102 GCA_000764205.1 1535422 1535422 Thalassotalea sp. ND16A ND16A Proteobacteria JQDZ01000100.1 1103 GCA_001267535.1 1560201 1560201 Erwinia iniecta B120 Proteobacteria JRXE01000012.1 1104 GCA_001267545.1 1560201 1560201 Erwinia iniecta B149 Proteobacteria JRXF01000008.1 1105 GCA_000788125.1 1561068 1561068 Acinetobacter sp. neg1 neg1 Proteobacteria JSZD01000006.1 1106 GCA_001411475.1 1563157 1563157 Pseudomonas endophytica BSTT44 Proteobacteria LLWH01000196.1 1107 GCA_000934545.1 1565605 1565605 Rhodocyclaceae bacterium PG1-Ca6 PG1-Ca6 Proteobacteria CP010554.1 1108 GCA_000831325.1 1572758 1572758 Thauera sp. SWB20 SWB20 Proteobacteria JTDM01000020.1 1109 GCA_001455145.1 1307442 1583098 Fusobacterium hwasookii ChDC F174 ChDC F174 Fusobacteria CP013331.1 1110 GCA_000836735.1 1588629 1588629 Aeromonas sp. L_1B5_3 L_1B5_3 Proteobacteria JXIR01000008.1 1111 GCA_001439745.1 1615675 1615675 Pseudomonas sp. DSM 28142 DSM 28142 Proteobacteria JYLP01000005.1 1112 GCA_001548095.1 1615909 1615909 Geminocystis sp. NIES-3708 NIES-3708 Cyanobacteria AP014815.1 1113 GCA_000802035.2 1619235 1619235 Pseudomonas sp. BICA1-14 Proteobacteria JUEC02000002.1 1114 GCA_000958445.1 1619246 1619246 Enterobacter sp. 42202 42202 Proteobacteria JZYH01000003.1 1115 GCA_000955795.1 1619951 1619951 Burkholderiaceae bacterium 26 26 Proteobacteria JYOB01000010.1 1116 GCA_000960545.1 1620393 1620393 Vibrio sp. S457-15 S457-15 Proteobacteria JYOQ01000119.1 1117 GCA_000960425.1 1620394 1620394 Vibrio sp. S512-13 S512-13 Proteobacteria JYOR01000079.1 1118 GCA_001011155.1 1620421 1620421 Hoeflea sp. IMCC20628 IMCC20628 Proteobacteria CP011479.1 1119 GCA_001044505.1 1628278 1628278 Nitrospina sp. SCGC_AAA799_A02 Nitrospinae JZKI01000044.1 1120 GCA_000961835.1 1629711 1629711 Pseudomonas sp. BRH_c35 Proteobacteria LADX01000225.1 1121 GCA_000961805.1 1629714 1629714 Peptococcaceae bacterium BRH_c23 Firmicutes LADV01000103.1 1122 GCA_001011715.1 1643812 1643812 Enterobacter sp. GN02174 GN02174 Proteobacteria LDCI01000011.1 1123 GCA_001023195.1 1643814 1643814 Enterobacter sp. GN02204 GN02204 Proteobacteria LEEQ01000037.1 1124 GCA_001011975.1 1643815 1643815 Enterobacter sp. GN02225 GN02225 Proteobacteria LDCL01000065.1 1125 GCA_001077815.1 1648404 1648404 Erythrobacter sp. s21-N3 s21-N3 Proteobacteria CP011310.1 1126 GCA_001023235.1 1659705 1659705 Enterobacter sp. GN02275 GN02275 Proteobacteria LEEK01000036.1 1127 GCA_001022355.1 1659709 1659709 Enterobacter sp. GN02366 GN02366 Proteobacteria LEEC01000026.1 1128 GCA_001022445.2 1659710 1659710 Enterobacter sp. GN02454 GN02454 Proteobacteria LEDW02000013.1 1129 GCA_001022495.2 1659711 1659711 Enterobacter sp. GN02457 GN02457 Proteobacteria LEDV02000004.1 1130 GCA_001022995.1 1659720 1659720 Enterobacter sp. GN03191 GN03191 Proteobacteria LECY01000030.1 1131 GCA_001293045.1 1678678 1678678 Burkholderia sp. HB1 HB1 Proteobacteria CP012192.1 1132 GCA_001412125.1 1699078 1699078 Geobacillus sp. PA-3 PA-3 Firmicutes LIDX01000059.1 1133 GCA_001593285.1 1699622 1699622 Psychrobacter sp. P2G3 P2G3 Proteobacteria CP012529.1 1134 GCA_001271345.1 1702325 1702325 Chelatococcus sp. CO-6 CO-6 Proteobacteria CP012398.1 1135 GCA_001412595.1 1707785 1707785 Massilia sp. WG5 WG5 Proteobacteria CP012640.1 1136 GCA_001458295.1 1715692 1715692 Ruegeria sp. CECT 5091 CECT 5091 Proteobacteria CYUD01000002.1 1137 GCA_001458215.1 1715693 1715693 Phaeobacter sp. CECT 7735 CECT 7735 Proteobacteria CYTW01000001.1 1138 GCA_001458695.1 1715989 1715989 Candidatus Nitrospira inopinata Nitrospirae LN885086.1 1139 GCA_001529285.1 1729582 1729582 Pseudomonas sp. TAA207 TAA207 Proteobacteria LLWJ01000066.1 1140 GCA_001529305.1 1729583 1729583 Pseudomonas sp. TAD18 TAD18 Proteobacteria LLWI01000076.1 1141 GCA_001516045.1 1734396 1734396 Desulfosporosinus sp. BRH_c37 Firmicutes LOEW01000087.1 1142 GCA_001421235.1 1735675 1735675 Rhizobium sp. Leaf202 Leaf202 Proteobacteria LMKD01000014.1 1143 GCA_001421635.1 1735692 1735692 Sphingomonas sp. Leaf25 Leaf25 Proteobacteria LMKU01000030.1 1144 GCA_001421985.1 1736231 1736231 Rhizobium sp. Leaf68 Leaf68 Proteobacteria LMLQ01000014.1 1145 GCA_001423405.1 1736264 1736264 Methylobacterium sp. Leaf123 Leaf123 Proteobacteria LMNS01000004.1 1146 GCA_001424265.1 1736280 1736280 Acidovorax sp. Leaf160 Leaf160 Proteobacteria LMOV01000023.1 1147 GCA_001423245.1 1736336 1736336 Aureimonas sp. Leaf324 Leaf324 Proteobacteria LMOH01000012.1 1148 GCA_001424045.1 1736355 1736355 Rhizobium sp. Leaf371 Leaf371 Proteobacteria LMQB01000026.1 1149 GCA_001424985.1 1736429 1736429 Rhizobium sp. Root1212 Root1212 Proteobacteria LMDA01000022.1 1150 GCA_001426805.1 1736462 1736462 Brevundimonas sp. Root1423 Root1423 Proteobacteria LMFL01000003.1 1151 GCA_001429215.1 1736505 1736505 Acidovorax sp. Root267 Root267 Proteobacteria LMJC01000005.1 1152 GCA_001428925.1 1736506 1736506 Rhizobium sp. Root268 Root268 Proteobacteria LMJD01000023.1 1153 GCA_001424925.1 1736515 1736515 Pseudomonas sp. Root329 Root329 Proteobacteria LMCV01000007.1 1154 GCA_001426345.1 1736537 1736537 Devosia sp. Root436 Root436 Proteobacteria LMEM01000015.1 1155 GCA_001429505.1 1736544 1736544 Bosea sp. Root483D1 Root483D1 Proteobacteria LMJW01000003.1 1156 GCA_001427465.1 1736566 1736566 Pseudomonas sp. Root569 Root569 Proteobacteria LMGQ01000003.1 1157 GCA_001427825.1 1736569 1736569 Brevundimonas sp. Root608 Root608 Proteobacteria LMGT01000001.1 1158 GCA_001429725.1 1736592 1736592 Rhizobium sp. Root708 Root708 Proteobacteria LMHV01000043.1 1159 GCA_001414205.1 1737624 1737624 Geobacillus sp. Sah69 Sah69 Firmicutes LLKS01000066.1 1160 GCA_001542405.1 1755240 1755240 Rhizobium sp. BR10423 BR10423 Proteobacteria LNCD01000088.1 1161 GCA_001506075.1 1761910 1761910 Vibrio sp. MEBiC08052 MEBiC08052 Proteobacteria KQ947475.1 1162 GCA_001469895.1 1766621 1766621 Pseudoalteromonas sp. XI10 XI10 Proteobacteria LOPY01000025.1 1163 GCA_001544695.1 1777135 1777135 Burkholderia sp. LMG 29317 Proteobacteria FCOM01000073.1 1164 GCA_900044055.1 1777138 1777138 Burkholderia sp. LMG 29320 Proteobacteria FCOX01000009.1 1165 GCA_900044055.1 1777138 1777138 Burkholderia sp. LMG 29320 Proteobacteria FCOX01000002.1 1166 GCA_900044055.1 1777138 1777138 Burkholderia sp. LMG 29320 Proteobacteria FCOX01000040.1 1167 GCA_001544915.1 1777141 1777141 Burkholderia sp. LMG 29323 Proteobacteria FCOE01000003.1 1168 GCA_001545035.1 1777143 1777143 Burkholderia sp. LMG 29325 Proteobacteria FCOJ01000099.1 1169 GCA_001577625.1 1785949 1785949 Halobacteroidaceae bacterium T328-2 Firmicutes LSBO01000115.1 1170 GCA_001581915.1 1789004 1789004 Ferrovum sp. Z-31 Z-31 Proteobacteria LRRD01000049.1 1171 GCA_000286655.1 1216470 1812935 Enterobacter sp. SST3 SST3 Proteobacteria ALNS01000022.1 1172 GCA_000467655.2 1334630 1812935 Enterobacter cloacae EC_38VIM1 EC_38VIM1 Proteobacteria ATHX01000012.1 1173 GCA_000534155.1 1400152 1812935 Enterobacter cloacae UCI 39 UCI 39 Proteobacteria KI973119.1 1174 GCA_001592395.1 1813182 1813182 Geobacillus sp. JS12 JS12 Firmicutes CP014749.1 1175 GCA_000024525.1 504472 108 Spirosoma linguale DSM 74 DSM 74 Bacteroidetes CP001770.1 1176 GCA_000253755.2 887281 195 Campylobacter coli 7--1 7--1 Proteobacteria AIMZ01000005.1 1177 GCA_000253935.2 887284 195 Campylobacter coli 67-8 67-8 Proteobacteria AINI01000046.1 1178 GCA_000254035.2 887304 195 Campylobacter coli LMG 23341 LMG 23341 Proteobacteria AINN01000049.1 1179 GCA_000254055.2 887305 195 Campylobacter coli LMG 23342 LMG 23342 Proteobacteria AIN001000051.1 1180 GCA_001416745.1 195 195 Campylobacter coli CVM N42205 Proteobacteria LBEO01000037.1 1181 GCA_001418825.1 1440776 195 Campylobacter coli CVM 41904 CVM 41904 Proteobacteria JAJL01000029.1 1182 GCA_001419395.1 1440016 195 Campylobacter coli CVM 41963 CVM 41963 Proteobacteria JAJR01000050.1 1183 GCA_001441815.1 195 195 Campylobacter coli CVM N3506 Proteobacteria JOUR01000007.1 1184 GCA_001442405.1 195 195 Campylobacter coli CVM N14840 Proteobacteria JOVV01000015.1 1185 GCA_000705275.1 91352 198 Campylobacter hyointestinalis subsp. hyointestinalis DSM 19053 Proteobacteria JHQP01000002.1 1186 GCA_000701165.2 1395570 292 Burkholderia cepacia JBK9 JBK9 Proteobacteria CP013730.1 1187 GCA_001543265.1 296 296 Pseudomonas fragi P121 Proteobacteria CP013861.1 1188 GCA_900048915.1 446 446 Legionella pneumophila 2531STDY5467317 Proteobacteria FJAM01000003.1 1189 GCA_900051685.1 446 446 Legionella pneumophila 2531STDY5467385 Proteobacteria FJCH01000002.1 1190 GCA_900052085.1 446 446 Legionella pneumophila 2531STDY5467299 Proteobacteria FJAW01000009.1 1191 GCA_900059955.1 446 446 Legionella pneumophila 2531STDY5467397 Proteobacteria FJDI01000005.1 1192 GCA_900060365.1 446 446 Legionella pneumophila 2531STDY5467373 Proteobacteria FJDE01000004.1 1193 GCA_900061515.1 446 446 Legionella pneumophila 2531STDY5467344 Proteobacteria FJCG01000004.1 1194 GCA_900061575.1 446 446 Legionella pneumophila 2531STDY5467389 Proteobacteria FJCV01000005.1 1195 GCA_900070165.1 446 446 Legionella pneumophila 2531STDY5467373 Proteobacteria FJNL01000004.1 1196 GCA_000176095.1 638315 450 Legionella longbeachae D-4968 D-4968 Proteobacteria ACZG01000001.1 1197 GCA_000092265.1 1236608 480 Moraxella catarrhalis BBH18 BBH18 Proteobacteria CP002005.1 1198 GCA_000192905.2 857581 480 Moraxella catarrhalis 7169 7169 Proteobacteria AERC01000010.1 1199 GCA_000192925.2 857579 480 Moraxella catarrhalis 103P14B1 103P14B1 Proteobacteria AERE01000083.1 1200 GCA_000192945.2 857578 480 Moraxella catarrhalis 46P47B1 46P47B1 Proteobacteria AERF01000047.1 1201 GCA_000192965.2 857577 480 Moraxella catarrhalis 12P80B1 12P80B1 Proteobacteria AERG01000021.1 1202 GCA_000192985.2 857576 480 Moraxella catarrhalis BC1 BC1 Proteobacteria AERH01000031.1 1203 GCA_000193005.2 857575 480 Moraxella catarrhalis BC7 BC7 Proteobacteria AERI01000026.1 1204 GCA_000193045.2 857573 480 Moraxella catarrhalis CO72 CO72 Proteobacteria AERK01000003.1 1205 GCA_000193065.2 857572 480 Moraxella catarrhalis 101P30B1 101P30B1 Proteobacteria AEPC01000015.1 1206 GCA_000302495.1 749219 480 Moraxella catarrhalis RH4 RH4 Proteobacteria AMSO01000008.1 1207 GCA_000766665.1 480 480 Moraxella catarrhalis 25239 Proteobacteria CP007669.1 1208 GCA_001281005.1 546 546 Citrobacter freundii P10159 Proteobacteria CP012554.1 1209 GCA_000952375.1 550 550 Enterobacter cloacae MNCRE12 Proteobacteria JYME01000006.1 1210 GCA_001005095.1 553 553 Pantoea ananatis MR5 Proteobacteria LBFU01000095.1 1211 GCA_000738105.1 180957 554 Pectobacterium carotovorum subsp. brasiliense CFIA1009 Proteobacteria JPSN01000016.1 1212 GCA_000808235.1 180957 554 Pectobacterium carotovorum subsp. brasiliense YCD21 Proteobacteria JUJJ01000006.1 1213 GCA_000006665.1 155864 562 Escherichia coli O157:H7 str. EDL933 EDL933 Proteobacteria AE005174.2 1214 GCA_000008865.1 386585 562 Escherichia coli O157:H7 str. Sakai Sakai substr. RIMD 0509952 Proteobacteria BA000007.2 1215 GCA_000019385.1 481805 562 Escherichia coli ATCC 8739 ATCC 8739 Proteobacteria CP000946.1 1216 GCA_000019645.1 439855 562 Escherichia coli SMS-3-5 SMS-3-5 Proteobacteria CP000970.1 1217 GCA_000021125.1 444450 562 Escherichia coli O157:H7 str. EC4115 EC4115 Proteobacteria CP001164.1 1218 GCA_000022225.1 544404 562 Escherichia coli O157:H7 str. TW14359 TW14359 Proteobacteria CP001368.1 1219 GCA_000025165.1 701177 562 Escherichia coli O55:H7 str. CB9615 CB9615 Proteobacteria CP001846.1 1220 GCA_000155125.1 502346 562 Escherichia coli O157:H7 str. TW14588 TW14588 Proteobacteria CM000662.1 1221 GCA_000164335.1 749547 562 Escherichia coli MS 187-1 MS 187-1 Proteobacteria GG772497.1 1222 GCA_000171915.1 444451 562 Escherichia coli O157:H7 str. EC4196 EC4196 Proteobacteria ABHO01000006.1 1223 GCA_000171935.1 444452 562 Escherichia coli O157:H7 str. EC4113 EC4113 Proteobacteria ABHP01000015.1 1224 GCA_000171955.1 444453 562 Escherichia coli O157:H7 str. EC4076 EC4076 Proteobacteria ABHQ01000017.1 1225 GCA_000171975.1 478004 562 Escherichia coli O157:H7 str. EC4401 EC4401 Proteobacteria ABHR01000005.1 1226 GCA_000171995.1 478005 562 Escherichia coli O157:H7 str. EC4486 EC4486 Proteobacteria ABHS01000002.1 1227 GCA_000172015.1 478006 562 Escherichia coli O157:H7 str. EC4501 EC4501 Proteobacteria ABHT01000004.1 1228 GCA_000172035.1 478008 562 Escherichia coli O157:H7 str. EC869 EC869 Proteobacteria ABHU01000001.1 1229 GCA_000172055.1 478007 562 Escherichia coli O157:H7 str. EC508 EC508 Proteobacteria ABHW01000003.1 1230 GCA_000176615.2 656437 562 Escherichia coli TA143 TA143 Proteobacteria GL884236.1 1231 GCA_000181735.1 444447 562 Escherichia coli O157:H7 str. EC4206 EC4206 Proteobacteria ABHK02000001.1 1232 GCA_000181755.1 444448 562 Escherichia coli O157:H7 str. EC4045 EC4045 Proteobacteria ABHL02000001.1 1233 GCA_000181775.1 444449 562 Escherichia coli O157:H7 str. EC4042 EC4042 Proteobacteria ABHM02000001.1 1234 GCA_000187285.4 926026 562 Escherichia coli O157:H7 str. G5101 G5101 Proteobacteria AETX01000114.1 1235 GCA_000187305.2 926027 562 Escherichia coli O157:H-str. 493-89 493-89 Proteobacteria AETY01000104.1 1236 GCA_000187325.2 926028 562 Escherichia coli O157:H-str. H 2687 H 2687 Proteobacteria AETZ01000110.1 1237 GCA_000187365.2 926030 562 Escherichia coli O55:H7 str. USDA 5905 USDA 5905 Proteobacteria AEUB01000059.1 1238 GCA_000187385.2 926032 562 Escherichia coli O157:H7 str. LSU-61 LSU-61 Proteobacteria AEUC01000091.1 1239 GCA_000192665.2 997824 562 Escherichia coli O157:H7 str. 1044 1044 Proteobacteria AERP01000018.1 1240 GCA_000192685.2 997825 562 Escherichia coli O157:H7 str. 1125 1125 Proteobacteria AERR01000012.1 1241 GCA_000193955.2 941435 562 Escherichia coli O157:H7 str. EC1212 EC1212 Proteobacteria AERQ01000011.1 1242 GCA_000245515.1 1048689 562 Escherichia coli O55:H7 str. RM12579 RM12579 Proteobacteria CP003109.1 1243 GCA_000249375.2 868149 562 Escherichia coli DEC4A DEC4A Proteobacteria AIFK01000052.1 1244 GCA_000249395.2 868150 562 Escherichia coli DEC4B DEC4B Proteobacteria AIFL01000076.1 1245 GCA_000249495.2 868155 562 Escherichia coli DEC5A DEC5A Proteobacteria AIFQ01000037.1 1246 GCA_000249535.2 868157 562 Escherichia coli DEC5C DEC5C Proteobacteria AIFS01000052.1 1247 GCA_000249555.2 868158 562 Escherichia coli DEC5D DEC5D Proteobacteria AIFT01000001.1 1248 GCA_000261145.1 656421 562 Escherichia coli M919 M919 Proteobacteria JH659569.1 1249 GCA_000262125.1 741093 562 Escherichia coli Xuzhou21 Xuzhou21 Proteobacteria CP001925.1 1250 GCA_000267005.2 1005471 562 Escherichia coli FDA505 FDA505 Proteobacteria JH692596.1 1251 GCA_000267025.1 1005535 562 Escherichia coli EC1738 EC1738 Proteobacteria AKMN01000003.1 1252 GCA_000267045.1 1005536 562 Escherichia coli EC1734 EC1734 Proteobacteria AKMO01000001.1 1253 GCA_000267065.1 1005520 562 Escherichia coli TW09109 TW09109 Proteobacteria AKLY01000005.1 1254 GCA_000267085.1 1005497 562 Escherichia coli PA22 PA22 Proteobacteria AKLI01000001.1 1255 GCA_000267105.1 1005508 562 Escherichia coli PA40 PA40 Proteobacteria AKLQ01000001.1 1256 GCA_000267125.1 1005515 562 Escherichia coli TW06591 TW06591 Proteobacteria AKLT01000044.1 1257 GCA_000267145.1 1005517 562 Escherichia coli TW10246 TW10246 Proteobacteria AKLV01000003.1 1258 GCA_000267165.1 1005518 562 Escherichia coli TW11039 TW11039 Proteobacteria AKLW01000006.1 1259 GCA_000267185.1 1005522 562 Escherichia coli TW10119 TW10119 Proteobacteria AKMA01000001.1 1260 GCA_000267205.2 1005548 562 Escherichia coli EC1863 EC1863 Proteobacteria JH692972.1 1261 GCA_000267225.2 1005540 562 Escherichia coli EC1845 EC1845 Proteobacteria JH693448.1 1262 GCA_000267245.2 1005534 562 Escherichia coli EC4448 EC4448 Proteobacteria JH693935.1 1263 GCA_000267265.2 1005533 562 Escherichia coli EC4437 EC4437 Proteobacteria JH694340.1 1264 GCA_000267285.2 1005532 562 Escherichia coli EC4436 EC4436 Proteobacteria JH694746.1 1265 GCA_000267305.2 1005531 562 Escherichia coli EC4439 EC4439 Proteobacteria JH697080.1 1266 GCA_000267325.1 1005530 562 Escherichia coli EC4402 EC4402 Proteobacteria JH697727.1 1267 GCA_000267345.2 1005529 562 Escherichia coli EC4013 EC4013 Proteobacteria JH698305.1 1268 GCA_000267365.2 1005528 562 Escherichia coli EC4422 EC4422 Proteobacteria JH695870.1 1269 GCA_000267385.2 1005527 562 Escherichia coli EC4421 EC4421 Proteobacteria JH696600.1 1270 GCA_000267405.2 1005526 562 Escherichia coli TW14301 TW14301 Proteobacteria JH695863.1 1271 GCA_000267425.2 1005525 562 Escherichia coli TW14313 TW14313 Proteobacteria JH695399.1 1272 GCA_000267445.2 1005524 562 Escherichia coli EC4196 EC4196 Proteobacteria JH699193.1 1273 GCA_000267465.2 1005523 562 Escherichia coli EC4203 EC4203 Proteobacteria JH699677.1 1274 GCA_000267485.2 1005473 562 Escherichia coli FDA517 FDA517 Proteobacteria JH701994.1 1275 GCA_000267505.2 1005475 562 Escherichia coli FRIK1996 FRIK1996 Proteobacteria JH698283.1 1276 GCA_000267525.2 1005476 562 Escherichia coli FRIK1985 FRIK1985 Proteobacteria JH701532.1 1277 GCA_000267585.2 1005521 562 Escherichia coli TW09195 TW09195 Proteobacteria JH700736.1 1278 GCA_000267605.2 1005519 562 Escherichia coli TW09098 TW09098 Proteobacteria JH702452.1 1279 GCA_000267625.2 1005516 562 Escherichia coli TW07945 TW07945 Proteobacteria JH702467.1 1280 GCA_000267645.2 1005510 562 Escherichia coli PA42 PA42 Proteobacteria JH702836.1 1281 GCA_000267665.2 1005509 562 Escherichia coli PA41 PA41 Proteobacteria JH703744.1 1282 GCA_000267685.2 1005507 562 Escherichia coli PA39 PA39 Proteobacteria JH704563.1 1283 GCA_000267705.2 1005504 562 Escherichia coli PA33 PA33 Proteobacteria JH705112.1 1284 GCA_000267725.2 1005503 562 Escherichia coli PA32 PA32 Proteobacteria JH705678.1 1285 GCA_000267745.2 1005502 562 Escherichia coli PA31 PA31 Proteobacteria JH707077.1 1286 GCA_000267765.2 1005501 562 Escherichia coli PA28 PA28 Proteobacteria JH705685.1 1287 GCA_000267785.2 1005500 562 Escherichia coli PA25 PA25 Proteobacteria JH706538.1 1288 GCA_000267805.2 1005499 562 Escherichia coli PA24 PA24 Proteobacteria JH707528.1 1289 GCA_000267825.2 1005496 562 Escherichia coli PA15 PA15 Proteobacteria JH707559.1 1290 GCA_000267845.2 1005495 562 Escherichia coli PA14 PA14 Proteobacteria JH708600.1 1291 GCA_000267865.2 1005494 562 Escherichia coli PA10 PA10 Proteobacteria JH709066.1 1292 GCA_000267885.2 1005493 562 Escherichia coli PA9 PA9 Proteobacteria JH709102.1 1293 GCA_000267905.2 1005490 562 Escherichia coli PA5 PA5 Proteobacteria JH709975.1 1294 GCA_000267925.2 1005488 562 Escherichia coli PA3 PA3 Proteobacteria JH711390.1 1295 GCA_000267945.2 1005481 562 Escherichia coli 93-001 93-001 Proteobacteria JH710997.1 1296 GCA_000267965.2 1005478 562 Escherichia coli FRIK1990 FRIK1990 Proteobacteria JH710503.1 1297 GCA_000302715.1 1005483 562 Escherichia coli FRIK920 FRIK920 Proteobacteria AMTP01000126.1 1298 GCA_000302735.1 1005491 562 Escherichia coli PA7 PA7 Proteobacteria AMTQ01000008.1 1299 GCA_000303235.2 1005441 562 Escherichia coli 0.1304 0.1304 Proteobacteria JH943332.1 1300 GCA_000303275.2 1005482 562 Escherichia coli FRIK523 FRIK523 Proteobacteria JH943936.1 1301 GCA_000303295.2 1005486 562 Escherichia coli NE098 NE098 Proteobacteria JH946265.1 1302 GCA_000303315.2 1005554 562 Escherichia coli EC1870 EC1870 Proteobacteria JH945214.1 1303 GCA_000303335.2 1005553 562 Escherichia coli EC1869 EC1869 Proteobacteria JH946714.1 1304 GCA_000303355.2 1005552 562 Escherichia coli EC1868 EC1868 Proteobacteria JH944350.1 1305 GCA_000303375.2 1005551 562 Escherichia coli EC1866 EC1866 Proteobacteria JH944315.1 1306 GCA_000303415.2 1005549 562 Escherichia coli EC1864 EC1864 Proteobacteria JH945870.1 1307 GCA_000303435.2 1005547 562 Escherichia coli EC1862 EC1862 Proteobacteria JH952466.1 1308 GCA_000303455.2 1005546 562 Escherichia coli EC1856 EC1856 Proteobacteria JH952880.1 1309 GCA_000303475.2 1005545 562 Escherichia coli EC1850 EC1850 Proteobacteria JH952886.1 1310 GCA_000303495.2 1005544 562 Escherichia coli EC1849 EC1849 Proteobacteria JH953696.1 1311 GCA_000303515.2 1005543 562 Escherichia coli EC1848 EC1848 Proteobacteria JH955442.1 1312 GCA_000303535.2 1005542 562 Escherichia coli EC1847 EC1847 Proteobacteria JH963080.1 1313 GCA_000303555.2 1005541 562 Escherichia coli EC1846 EC1846 Proteobacteria JH956315.1 1314 GCA_000303575.2 1005539 562 Escherichia coli EC1737 EC1737 Proteobacteria JH963529.1 1315 GCA_000303595.2 1005538 562 Escherichia coli EC1736 EC1736 Proteobacteria JH965238.1 1316 GCA_000303615.2 1005537 562 Escherichia coli EC1735 EC1735 Proteobacteria JH958312.1 1317 GCA_000303675.2 1005506 562 Escherichia coli PA38 PA38 Proteobacteria JH966117.1 1318 GCA_000303695.2 1005505 562 Escherichia coli PA34 PA34 Proteobacteria JH963946.1 1319 GCA_000303715.2 1005474 562 Escherichia coli FDA506 FDA506 Proteobacteria JH964536.1 1320 GCA_000303735.2 1005472 562 Escherichia coli FDA507 FDA507 Proteobacteria JH963945.1 1321 GCA_000303755.2 1005470 562 Escherichia coli FDA504 FDA504 Proteobacteria JH961871.1 1322 GCA_000303775.2 1005477 562 Escherichia coli FRIK1999 FRIK1999 Proteobacteria JH962623.1 1323 GCA_000303795.2 1005480 562 Escherichia coli FRIK1997 FRIK1997 Proteobacteria JH961362.1 1324 GCA_000303815.2 1005485 562 Escherichia coli NE1487 NE1487 Proteobacteria JH957512.1 1325 GCA_000303835.2 1005484 562 Escherichia coli NE037 NE037 Proteobacteria JH960043.1 1326 GCA_000303855.2 1005479 562 Escherichia coli FRIK2001 FRIK2001 Proteobacteria JH960978.1 1327 GCA_000303875.2 1005489 562 Escherichia coli PA4 PA4 Proteobacteria JH960549.1 1328 GCA_000303895.2 1005498 562 Escherichia coli PA23 PA23 Proteobacteria JH959990.1 1329 GCA_000303915.2 1005514 562 Escherichia coli PA49 PA49 Proteobacteria JH959133.1 1330 GCA_000303935.2 1005511 562 Escherichia coli PA45 PA45 Proteobacteria JH958691.1 1331 GCA_000303955.2 1005555 562 Escherichia coli TT12B TT12B Proteobacteria JH957216.1 1332 GCA_000303975.2 1005557 562 Escherichia coli MA6 MA6 Proteobacteria JH956821.1 1333 GCA_000303995.2 1005558 562 Escherichia coli 5905 5905 Proteobacteria JH958373.1 1334 GCA_000304015.2 1005559 562 Escherichia coli CB7326 CB7326 Proteobacteria JH956766.1 1335 GCA_000304035.2 1005560 562 Escherichia coli EC96038 EC96038 Proteobacteria JH955436.1 1336 GCA_000304055.2 1005561 562 Escherichia coli 5412 5412 Proteobacteria JH954949.1 1337 GCA_000304815.2 1005450 562 Escherichia coli 3.4870 3.4870 Proteobacteria JH970627.1 1338 GCA_000304835.2 1005463 562 Escherichia coli 8.0416 8.0416 Proteobacteria AMTN01000133.1 1339 GCA_000304855.2 1005469 562 Escherichia coli 10.0821 10.0821 Proteobacteria AMTO01000004.1 1340 GCA_000304875.2 1005452 562 Escherichia coli 5.2239 5.2239 Proteobacteria JH970990.1 1341 GCA_000305155.2 1005455 562 Escherichia coli 6.0172 6.0172 Proteobacteria JH970109.1 1342 GCA_000305375.2 1005461 562 Escherichia coli 8.0586 8.0586 Proteobacteria JH969648.1 1343 GCA_000305395.2 1005460 562 Escherichia coli 8.2524 8.2524 Proteobacteria JH969044.1 1344 GCA_000305415.2 1005466 562 Escherichia coli 10.0833 10.0833 Proteobacteria JH969098.1 1345 GCA_000305435.2 1005467 562 Escherichia coli 10.0869 10.0869 Proteobacteria JH968727.1 1346 GCA_000305455.2 1005397 562 Escherichia coli 88.0221 88.0221 Proteobacteria JH968005.1 1347 GCA_000316325.2 1005396 562 Escherichia coli 88.1467 88.1467 Proteobacteria KB000019.1 1348 GCA_000316345.2 1005398 562 Escherichia coli 88.1042 88.1042 Proteobacteria KB006081.1 1349 GCA_000316365.2 1005399 562 Escherichia coli 89.0511 89.0511 Proteobacteria KB007266.1 1350 GCA_000316385.2 1005400 562 Escherichia coli 90.0091 90.0091 Proteobacteria KB007294.1 1351 GCA_000316405.2 1005401 562 Escherichia coli 90.0039 90.0039 Proteobacteria KB006791.1 1352 GCA_000316425.2 1005402 562 Escherichia coli 90.2281 90.2281 Proteobacteria KB005715.1 1353 GCA_000316445.2 1005403 562 Escherichia coli 93.0055 93.0055 Proteobacteria KB004131.1 1354 GCA_000316465.1 1005404 562 Escherichia coli 93.0056 93.0056 Proteobacteria KB004997.1 1355 GCA_000316485.1 1005405 562 Escherichia coli 94.0618 94.0618 Proteobacteria KB005707.1 1356 GCA_000316505.2 1005420 562 Escherichia coli 97.0007 97.0007 Proteobacteria ANMC01000275.1 1357 GCA_000316545.2 1005422 562 Escherichia coli 99.0678 99.0678 Proteobacteria ANME01000013.1 1358 GCA_000316565.2 1005424 562 Escherichia coli 99.0713 99.0713 Proteobacteria ANMF01000001.1 1359 GCA_000316705.2 1005421 562 Escherichia coli 99.0672 99.0672 Proteobacteria KB004968.1 1360 GCA_000316725.2 1005418 562 Escherichia coli 97.1742 97.1742 Proteobacteria KB004341.1 1361 GCA_000316745.2 1005416 562 Escherichia coli 97.0003 97.0003 Proteobacteria JH999738.1 1362 GCA_000316765.2 1005415 562 Escherichia coli 96.0107 96.0107 Proteobacteria KB003449.1 1363 GCA_000316785.2 1005412 562 Escherichia coli 96.0939 96.0939 Proteobacteria KB003084.1 1364 GCA_000316805.2 1005413 562 Escherichia coli 96.0932 96.0932 Proteobacteria KB003092.1 1365 GCA_000316825.2 1005411 562 Escherichia coli 96.0427 96.0427 Proteobacteria KB002687.1 1366 GCA_000316845.2 1005406 562 Escherichia coli 95.0183 95.0183 Proteobacteria KB002150.1 1367 GCA_000316865.2 1005407 562 Escherichia coli 95.1288 95.1288 Proteobacteria KB001319.1 1368 GCA_000316885.2 1005408 562 Escherichia coli 95.0943 95.0943 Proteobacteria KB000789.1 1369 GCA_000316905.2 1005410 562 Escherichia coli 96.0428 96.0428 Proteobacteria KB000504.1 1370 GCA_000318425.2 1005414 562 Escherichia coli 96.0109 96.0109 Proteobacteria KB009454.1 1371 GCA_000318445.2 1005419 562 Escherichia coli 97.0010 97.0010 Proteobacteria KB008877.1 1372 GCA_000326965.1 1169382 562 Escherichia coli KTE125 KTE125 Proteobacteria KB732191.1 1373 GCA_000334975.2 1005433 562 Escherichia coli 99.0815 99.0815 Proteobacteria AODZ01000274.1 1374 GCA_000334995.2 1005430 562 Escherichia coli 99.0816 99.0816 Proteobacteria AOEA01000217.1 1375 GCA_000335015.2 1005437 562 Escherichia coli 99.1793 99.1793 Proteobacteria AOEF01000014.1 1376 GCA_000335035.2 1005436 562 Escherichia coli 99.1805 99.1805 Proteobacteria AOEG01000281.1 1377 GCA_000335055.2 1051353 562 Escherichia coli ATCC 700728 ATCC 700728 Proteobacteria AOEH01000126.1 1378 GCA_000335075.2 1005512 562 Escherichia coli PA47 PA47 Proteobacteria AOEM01000157.1 1379 GCA_000335095.2 1005513 562 Escherichia coli PA48 PA48 Proteobacteria AOEN01000122.1 1380 GCA_000335115.1 1051348 562 Escherichia coli 7.1982 7.1982 Proteobacteria AOEP01000011.1 1381 GCA_000335135.1 1005439 562 Escherichia coli 99.1781 99.1781 Proteobacteria AOEQ01000012.1 1382 GCA_000335155.2 1005435 562 Escherichia coli 99.1762 99.1762 Proteobacteria AOER01000006.1 1383 GCA_000335175.2 1051352 562 Escherichia coli PA35 PA35 Proteobacteria AOES01000151.1 1384 GCA_000335195.2 1051347 562 Escherichia coli 3.4880 3.4880 Proteobacteria AOET01000122.1 1385 GCA_000335215.2 1005423 562 Escherichia coli 99.0670 99.0670 Proteobacteria AOEV01000013.1 1386 GCA_000335235.2 1005434 562 Escherichia coli 99.0814 99.0814 Proteobacteria AODY01000209.1 1387 GCA_000335255.2 1005432 562 Escherichia coli 99.0839 99.0839 Proteobacteria AOEB01000180.1 1388 GCA_000335275.2 1005431 562 Escherichia coli 99.0848 99.0848 Proteobacteria AOEC01000227.1 1389 GCA_000335295.2 1005440 562 Escherichia coli 99.1753 99.1753 Proteobacteria AOED01000247.1 1390 GCA_000335315.2 1005438 562 Escherichia coli 99.1775 99.1775 Proteobacteria AOEE01000251.1 1391 GCA_000335335.2 1051351 562 Escherichia coli PA19 PA19 Proteobacteria AOEJ01000133.1 1392 GCA_000335355.2 1005487 562 Escherichia coli PA2 PA2 Proteobacteria AOEL01000002.1 1393 GCA_000335415.2 1051349 562 Escherichia coli PA11 PA11 Proteobacteria AOEI01000002.1 1394 GCA_000335435.2 1051350 562 Escherichia coli PA13 PA13 Proteobacteria AOEK01000001.1 1395 GCA_000335455.2 1005492 562 Escherichia coli PA8 PA8 Proteobacteria AOEO01000008.1 1396 GCA_000340455.2 1081887 562 Escherichia coli 09BKT078844 09BKT078844 Proteobacteria KB453231.1 1397 GCA_000350025.2 1090930 562 Escherichia coli ONT:H33 str. C48/93 C48/93 Proteobacteria AHAX01000074.1 1398 GCA_000350045.2 1090929 562 Escherichia coli O127:H27 str. C43/90 C43/90 Proteobacteria AHAW01000071.1 1399 GCA_000351625.1 1182673 562 Escherichia coli KTE66 KTE66 Proteobacteria KB732762.1 1400 GCA_000351985.1 1182733 562 Escherichia coli KTE161 KTE161 Proteobacteria KB732934.1 1401 GCA_000352325.1 1182657 562 Escherichia coli KTE50 KTE50 Proteobacteria KB733431.1 1402 GCA_000352965.1 1181748 562 Escherichia coli KTE202 KTE202 Proteobacteria KB733186.1 1403 GCA_000357685.2 1125651 562 Escherichia coli P0304799.3 P0304799.3 Proteobacteria APZX01000029.1 1404 GCA_000456685.1 1280993 562 Escherichia coli HVH 43 (4-2173468) HVH 43 (4-2173468) Proteobacteria KE699249.1 1405 GCA_000456705.1 1280994 562 Escherichia coli HVH 44 (4-2298570) HVH 44 (4-2298570) Proteobacteria KE699258.1 1406 GCA_000458705.1 1281109 562 Escherichia coli HVH 182 (4-0985554) HVH 182 (4-0985554) Proteobacteria KE700608.1 1407 GCA_000458915.1 1281120 562 Escherichia coli HVH 193 (4-3331423) HVH 193 (4-3331423) Proteobacteria KE700785.1 1408 GCA_000460315.1 1281191 562 Escherichia coli UMEA 3144-1 UMEA 3144-1 Proteobacteria KE701670.1 1409 GCA_000460355.1 1281194 562 Escherichia coli UMEA 3151-1 UMEA 3151-1 Proteobacteria KE701689.1 1410 GCA_000461915.2 1151226 562 Escherichia coli B26-2 B26-2 Proteobacteria AVQV01000001.1 1411 GCA_000461935.2 1081889 562 Escherichia coli 09BKT076207 09BKT076207 Proteobacteria AVQR01000067.1 1412 GCA_000461955.2 1151213 562 Escherichia coli B102 B102 Proteobacteria AVQS01000008.1 1413 GCA_000461975.2 1151219 562 Escherichia coli B29-1 B29-1 Proteobacteria AVQY01000001.1 1414 GCA_000461995.2 1151214 562 Escherichia coli B107 B107 Proteobacteria AVQT01000005.1 1415 GCA_000462025.2 1151225 562 Escherichia coli B26-1 B26-1 Proteobacteria AVQU01000001.1 1416 GCA_000462045.2 1151217 562 Escherichia coli B28-1 B28-1 Proteobacteria AVQW01000010.1 1417 GCA_000462065.2 1151222 562 Escherichia coli B36-2 B36-2 Proteobacteria AVRB01000001.1 1418 GCA_000462085.2 1151215 562 Escherichia coli B7-1 B7-1 Proteobacteria AVRC01000049.1 1419 GCA_000462105.2 1151220 562 Escherichia coli B29-2 B29-2 Proteobacteria AVQZ01000120.1 1420 GCA_000462125.2 1151221 562 Escherichia coli B36-1 B36-1 Proteobacteria AVRA01000107.1 1421 GCA_000462145.2 1081891 562 Escherichia coli T1282_01 T1282_01 Proteobacteria AVRM01000132.1 1422 GCA_000462165.2 1081893 562 Escherichia coli T924_01 T924_01 Proteobacteria AVRP01000002.1 1423 GCA_000462185.2 1151237 562 Escherichia coli B15 B15 Proteobacteria AVSB01000112.1 1424 GCA_000462225.2 1207035 562 Escherichia coli 14A 14A Proteobacteria AVRQ01000005.1 1425 GCA_000462245.2 1207038 562 Escherichia coli 2886-75 2886-75 Proteobacteria AVRR01000001.1 1426 GCA_000462265.2 1081896 562 Escherichia coli T1840_97 T1840_97 Proteobacteria AVRN01000121.1 1427 GCA_000462305.2 1081888 562 Escherichia coli 08BKT055439 08BKT055439 Proteobacteria AVRI01000134.1 1428 GCA_000462325.2 1081895 562 Escherichia coli 08BKT77219 08BKT77219 Proteobacteria AVRJ01000125.1 1429 GCA_000462345.2 1081894 562 Escherichia coli 09BKT024447 09BKT024447 Proteobacteria AVRK01000010.1 1430 GCA_000462365.2 1081890 562 Escherichia coli Bd5610_99 Bd5610_99 Proteobacteria AVRL01000137.1 1431 GCA_000462385.2 1081892 562 Escherichia coli T234_00 T234_00 Proteobacteria AVRO01000124.1 1432 GCA_000462405.2 1151216 562 Escherichia coli B7-2 B7-2 Proteobacteria AVRD01000050.1 1433 GCA_000462425.2 1151231 562 Escherichia coli B93 B93 Proteobacteria AVRE01000046.1 1434 GCA_000462445.2 1151232 562 Escherichia coli B94 B94 Proteobacteria AVRF01000052.1 1435 GCA_000462465.2 1151233 562 Escherichia coli B95 B95 Proteobacteria AVRG01000053.1 1436 GCA_000462485.2 1151234 562 Escherichia coli B103 B103 Proteobacteria AVRS01000001.1 1437 GCA_000462505.2 1151243 562 Escherichia coli B104 B104 Proteobacteria AVRT01000005.1 1438 GCA_000462525.2 1151247 562 Escherichia coli B105 B105 Proteobacteria AVRU01000005.1 1439 GCA_000462545.2 1151248 562 Escherichia coli B106 B106 Proteobacteria AVRV01000001.1 1440 GCA_000462565.2 550673 562 Escherichia coli B108 B108 Proteobacteria AVRW01000007.1 1441 GCA_000462585.2 1151244 562 Escherichia coli B109 B109 Proteobacteria AVRX01000001.1 1442 GCA_000462605.2 1151249 562 Escherichia coli B112 B112 Proteobacteria AVRY01000010.1 1443 GCA_000462625.2 1151250 562 Escherichia coli B113 B113 Proteobacteria AVRZ01000133.1 1444 GCA_000462645.2 1151251 562 Escherichia coli B114 B114 Proteobacteria AVSA01000001.1 1445 GCA_000462665.2 1151238 562 Escherichia coli B17 B17 Proteobacteria AVSC01000121.1 1446 GCA_000462685.2 1151227 562 Escherichia coli B40-1 B40-1 Proteobacteria AVSD01000010.1 1447 GCA_000462705.2 1151228 562 Escherichia coli B40-2 B40-2 Proteobacteria AVSE01000003.1 1448 GCA_000462725.2 1151246 562 Escherichia coli B49-2 B49-2 Proteobacteria AVSF01000006.1 1449 GCA_000462745.2 1151224 562 Escherichia coli B5-2 B5-2 Proteobacteria AVSG01000001.1 1450 GCA_000462765.2 1151239 562 Escherichia coli B83 B83 Proteobacteria AVSH01000001.1 1451 GCA_000462785.2 1151240 562 Escherichia coli B84 B84 Proteobacteria AVSI01000012.1 1452 GCA_000462805.2 1151241 562 Escherichia coli B85 B85 Proteobacteria AVSJ01000007.1 1453 GCA_000462825.2 1151242 562 Escherichia coli B86 B86 Proteobacteria AVSK01000136.1 1454 GCA_000462845.2 1151235 562 Escherichia coli B89 B89 Proteobacteria AVSL01000001.1 1455 GCA_000462865.2 1151236 562 Escherichia coli B90 B90 Proteobacteria AVSM01000129.1 1456 GCA_000462885.2 1207037 562 Escherichia coli Tx1686 Tx1686 Proteobacteria AVSN01000001.1 1457 GCA_000462905.2 1207036 562 Escherichia coli Tx3800 Tx3800 Proteobacteria AVSO01000014.1 1458 GCA_000473725.2 1389955 562 Escherichia coli ATCC 35150 ATCC 35150 Proteobacteria AWXM02000046.1 1459 GCA_000477495.2 1151218 562 Escherichia coli B28-2 B28-2 Proteobacteria AVQX01000012.1 1460 GCA_000488355.1 1268982 562 Escherichia coli 907672 907672 Proteobacteria KI531258.1 1461 GCA_000492235.1 1328450 562 Escherichia coli BIDMC 39 BIDMC 39 Proteobacteria KI535383.1 1462 GCA_000494995.1 1281069 562 Escherichia coli HVH 136 (4-5970458) HVH 136 (4-5970458) Proteobacteria KI538714.1 1463 GCA_000496345.2 1404261 562 Escherichia coli ATCC BAA-2192 ATCC BAA-2192 Proteobacteria AYGW02000190.1 1464 GCA_000498255.1 1097579 562 Escherichia coli P4-96 P4-96 Proteobacteria AHHO01000034.1 1465 GCA_000498275.1 1117111 562 Escherichia coli P4-NR P4-NR Proteobacteria AHHP01000046.1 1466 GCA_000520035.1 1248902 562 Escherichia coli O145:H28 str. RM13514 RM13514 Proteobacteria CP006027.1 1467 GCA_000601155.1 1444132 562 Escherichia coli 1-110-08_S3_C1 1-110-08_S3_C1 Proteobacteria JHDN01000003.1 1468 GCA_000601175.1 1444160 562 Escherichia coli 1-110-08_S3_C2 1-110-08_S3_C2 Proteobacteria JHDM01000091.1 1469 GCA_000601335.1 1444190 562 Escherichia coli 1-110-08_S3_C3 1-110-08_S3_C3 Proteobacteria JHDL01000001.1 1470 GCA_000614085.2 1446647 562 Escherichia coli O157:H7 str. 2011EL-2288 2011EL-2288 Proteobacteria JHKE01000007.1 1471 GCA_000614255.1 1446644 562 Escherichia coli O157:H7 str. 2011EL-2114 2011EL-2114 Proteobacteria JHKH01000002.1 1472 GCA_000614305.2 1446645 562 Escherichia coli O157:H7 str. 2011EL-2286 2011EL-2286 Proteobacteria JHKG01000013.1 1473 GCA_000614345.2 1446650 562 Escherichia coli O157:H7 str. 2011EL-2312 2011EL-2312 Proteobacteria JHKB01000003.1 1474 GCA_000614405.2 1446646 562 Escherichia coli O157:H7 str. 2011EL-2287 2011EL-2287 Proteobacteria JHKF01000001.1 1475 GCA_000614645.2 1446643 562 Escherichia coli O157:H7 str. 2011EL-2113 2011EL-2113 Proteobacteria JHKI01000015.1 1476 GCA_000614685.2 1446648 562 Escherichia coli O157:H7 str. 2011EL-2289 2011EL-2289 Proteobacteria JHKD01000001.1 1477 GCA_000614805.2 1446656 562 Escherichia coli O157:H7 str. F7350 F7350 Proteobacteria JHJN01000036.1 1478 GCA_000614885.2 1446622 562 Escherichia coli O157:H7 str. 2010C-4979C1 2010C-4979C1 Proteobacteria JHMK01000017.1 1479 GCA_000614965.1 1446619 562 Escherichia coli O157:H7 str. 2009EL1705 2009EL1705 Proteobacteria JHGE01000007.1 1480 GCA_000615015.1 1446621 562 Escherichia coli O157:H7 str. 2009EL2109 2009EL2109 Proteobacteria JHGC01000001.1 1481 GCA_000615085.1 1446587 562 Escherichia coli O145:NM str. 2010C-3507 2010C-3507 Proteobacteria JHFW01000006.1 1482 GCA_000615145.1 1446589 562 Escherichia coli O145:NM str. 2010C-3509 2010C-3509 Proteobacteria JHFU01000107.1 1483 GCA_000615175.1 1446590 562 Escherichia coli O145:NM str. 2010C-3510 2010C-3510 Proteobacteria JHFT01000001.1 1484 GCA_000615225.2 1446591 562 Escherichia coli O145:NM str. 2010C-3511 2010C-3511 Proteobacteria JHFS01000035.1 1485 GCA_000615265.1 1446592 562 Escherichia coli O145:NM str. 2010C-3516 2010C-3516 Proteobacteria JHFR01000094.1 1486 GCA_000615305.1 1446593 562 Escherichia coli O145:NM str. 2010C-3517 2010C-3517 Proteobacteria JHFQ01000117.1 1487 GCA_000615345.1 1446594 562 Escherichia coli O145:NM str. 2010C-3518 2010C-3518 Proteobacteria JHFP01000105.1 1488 GCA_000615385.1 1446595 562 Escherichia coli O145:NM str. 2010C-3521 2010C-3521 Proteobacteria JHFO01000022.1 1489 GCA_000615415.2 1446596 562 Escherichia coli O145:NM str. 2010C-3526 2010C-3526 Proteobacteria JHFN01000018.1 1490 GCA_000615695.1 1446633 562 Escherichia coli O157:H7 str. 2011EL-2101 2011EL-2101 Proteobacteria JHKS01000001.1 1491 GCA_000615745.2 1446634 562 Escherichia coli O157:H7 str. 2011EL-2103 2011EL-2103 Proteobacteria JHKR01000031.1 1492 GCA_000615785.2 1446635 562 Escherichia coli O157:H7 str. 2011EL-2104 2011EL-2104 Proteobacteria JHKQ01000016.1 1493 GCA_000615815.2 1446636 562 Escherichia coli O157:H7 str. 2011EL-2105 2011EL-2105 Proteobacteria JHKP01000014.1 1494 GCA_000615865.2 1446637 562 Escherichia coli O157:H7 str. 2011EL-2106 2011EL-2106 Proteobacteria JHKO01000009.1 1495 GCA_000615925.2 1446638 562 Escherichia coli O157:H7 str. 2011EL-2107 2011EL-2107 Proteobacteria JHKN01000006.1 1496 GCA_000615965.2 1446639 562 Escherichia coli O157:H7 str. 2011EL-2108 2011EL-2108 Proteobacteria JHKM01000031.1 1497 GCA_000616005.2 1446640 562 Escherichia coli O157:H7 str. 2011EL-2109 2011EL-2109 Proteobacteria JHKL01000015.1 1498 GCA_000616035.2 1446641 562 Escherichia coli O157:H7 str. 2011EL-2111 2011EL-2111 Proteobacteria JHKK01000003.1 1499 GCA_000616075.2 1446642 562 Escherichia coli O157:H7 str. 2011EL-2112 2011EL-2112 Proteobacteria JHKJ01000005.1 1500 GCA_000616365.1 1446623 562 Escherichia coli O157:H7 str. 2011EL-1107 2011EL-1107 Proteobacteria JHLK01000001.1 1501 GCA_000616405.2 1446624 562 Escherichia coli O157:H7 str. 2011EL-2090 2011EL-2090 Proteobacteria JHLI01000033.1 1502 GCA_000616425.2 1446625 562 Escherichia coli O157:H7 str. 2011EL-2091 2011EL-2091 Proteobacteria JHLH01000026.1 1503 GCA_000616445.2 1446626 562 Escherichia coli O157:H7 str. 2011EL-2092 2011EL-2092 Proteobacteria JHLG01000030.1 1504 GCA_000616465.2 1446627 562 Escherichia coli O157:H7 str. 2011EL-2093 2011EL-2093 Proteobacteria JHLF01000012.1 1505 GCA_000616485.2 1446628 562 Escherichia coli O157:H7 str. 2011EL-2094 2011EL-2094 Proteobacteria JHLE01000001.1 1506 GCA_000616505.2 1446629 562 Escherichia coli O157:H7 str. 2011EL-2096 2011EL-2096 Proteobacteria JHLD01000033.1 1507 GCA_000616525.2 1446630 562 Escherichia coli O157:H7 str. 2011EL-2097 2011EL-2097 Proteobacteria JHLC01000005.1 1508 GCA_000616545.2 1446631 562 Escherichia coli O157:H7 str. 2011EL-2098 2011EL-2098 Proteobacteria JHLB01000003.1 1509 GCA_000616585.2 1446613 562 Escherichia coli O157:H7 str. 08-3037 08-3037 Proteobacteria JHKZ01000011.1 1510 GCA_000616605.2 1446614 562 Escherichia coli O157:H7 str. 08-3527 08-3527 Proteobacteria JHKY01000032.1 1511 GCA_000616645.2 1446615 562 Escherichia coli O157:H7 str. 08-4169 08-4169 Proteobacteria JHKW01000004.1 1512 GCA_000616665.2 1446586 562 Escherichia coli O145:NM str. 08-4270 08-4270 Proteobacteria JHKV01000030.1 1513 GCA_000616705.2 1446632 562 Escherichia coli O157:H7 str. 2011EL-2099 2011EL-2099 Proteobacteria JHKT01000015.1 1514 GCA_000616745.1 1446692 562 Escherichia coli O157:H7 str. K5806 K5806 Proteobacteria JHHZ01000001.1 1515 GCA_000617345.1 1446585 562 Escherichia coli O145:NM str. 06-3484 06-3484 Proteobacteria JHNN01000002.1 1516 GCA_000617385.1 1446745 562 Escherichia coli O55:H7 str. 06-3555 06-3555 Proteobacteria JHNL01000009.1 1517 GCA_000617445.2 1446609 562 Escherichia coli O157:H7 str. 06-3745 06-3745 Proteobacteria JHNI01000020.1 1518 GCA_000617665.2 1446611 562 Escherichia coli O157:H7 str. 07-3091 07-3091 Proteobacteria JHNF01000007.1 1519 GCA_000617705.2 1446610 562 Escherichia coli O157:H7 str. 06-4039 06-4039 Proteobacteria JHNG01000005.1 1520 GCA_000617725.2 1446612 562 Escherichia coli O157:H7 str. 07-3391 07-3391 Proteobacteria JHNE01000001.1 1521 GCA_000617765.2 1446597 562 Escherichia coli O145:NM str. 2010C-4557C2 2010C-4557C2 Proteobacteria JHNA01000067.1 1522 GCA_000617965.1 1446680 562 Escherichia coli O157:H7 str. K4405 K4405 Proteobacteria JHIN01000100.1 1523 GCA_000618025.1 1446663 562 Escherichia coli O157:H7 str. K1420 K1420 Proteobacteria JHJF01000008.1 1524 GCA_000618045.1 1446653 562 Escherichia coli O157:H7 str. F6749 F6749 Proteobacteria JHJQ01000001.1 1525 GCA_000618065.2 1446658 562 Escherichia coli O157:H7 str. F7384 F7384 Proteobacteria JHJL01000002.1 1526 GCA_000618105.2 1446652 562 Escherichia coli O157:H7 str. F6142 F6142 Proteobacteria JHJT01000009.1 1527 GCA_000618185.1 1446660 562 Escherichia coli O157:H7 str. G5303 G5303 Proteobacteria JHJI01000027.1 1528 GCA_000618225.2 1446657 562 Escherichia coli O157:H7 str. F7377 F7377 Proteobacteria JHJM01000002.1 1529 GCA_000618245.1 1446661 562 Escherichia coli O157:H7 str. H2495 H2495 Proteobacteria JHJH01000020.1 1530 GCA_000618265.2 1446655 562 Escherichia coli O157:H7 str. F6751 F6751 Proteobacteria JHJO01000004.1 1531 GCA_000618285.2 1446662 562 Escherichia coli O157:H7 str. H2498 H2498 Proteobacteria JHJG01000003.1 1532 GCA_000618305.2 1446654 562 Escherichia coli O157:H7 str. F6750 F6750 Proteobacteria JHJP01000010.1 1533 GCA_000618325.1 1446667 562 Escherichia coli O157:H7 str. K1796 K1796 Proteobacteria JHJA01000003.1 1534 GCA_000618345.1 1446668 562 Escherichia coli O157:H7 str. K1845 K1845 Proteobacteria JHIZ01000038.1 1535 GCA_000618385.1 1446666 562 Escherichia coli O157:H7 str. K1795 K1795 Proteobacteria JHJB01000012.1 1536 GCA_000618445.1 1446669 562 Escherichia coli O157:H7 str. K1921 K1921 Proteobacteria JHIY01000012.1 1537 GCA_000618465.1 1446670 562 Escherichia coli O157:H7 str. K1927 K1927 Proteobacteria JHIX01000108.1 1538 GCA_000618485.1 1446671 562 Escherichia coli O157:H7 str. K2188 K2188 Proteobacteria JHIW01000103.1 1539 GCA_000618505.1 1446672 562 Escherichia coli O157:H7 str. K2191 K2191 Proteobacteria JHIV01000063.1 1540 GCA_000618525.1 1446675 562 Escherichia coli O157:H7 str. K2581 K2581 Proteobacteria JHIS01000013.1 1541 GCA_000618545.1 1446676 562 Escherichia coli O157:H7 str. K2622 K2622 Proteobacteria JHIR01000010.1 1542 GCA_000618565.1 1446677 562 Escherichia coli O157:H7 str. K2845 K2845 Proteobacteria JHIQ01000033.1 1543 GCA_000618585.1 1446678 562 Escherichia coli O157:H7 str. K2854 K2854 Proteobacteria JHIP01000003.1 1544 GCA_000618605.1 1446679 562 Escherichia coli O157:H7 str. K4396 K4396 Proteobacteria JHIO01000002.1 1545 GCA_000618625.1 1446681 562 Escherichia coli O157:H7 str. K4406 K4406 Proteobacteria JHIM01000001.1 1546 GCA_000618665.1 1446674 562 Escherichia coli O157:H7 str. K2324 K2324 Proteobacteria JHIT01000105.1 1547 GCA_000618685.1 1446682 562 Escherichia coli O157:H7 str. K4527 K4527 Proteobacteria JHIL01000001.1 1548 GCA_000618745.1 1446683 562 Escherichia coli O157:H7 str. K5418 K5418 Proteobacteria JHII01000001.1 1549 GCA_000618765.1 1446684 562 Escherichia coli O157:H7 str. K5448 K5448 Proteobacteria JHIH01000007.1 1550 GCA_000618785.1 1446685 562 Escherichia coli O157:H7 str. K5449 K5449 Proteobacteria JHIG01000002.1 1551 GCA_000618805.1 1446686 562 Escherichia coli O157:H7 str. K5453 K5453 Proteobacteria JHIF01000066.1 1552 GCA_000618825.1 1446688 562 Escherichia coli O157:H7 str. K5467 K5467 Proteobacteria JHID01000001.1 1553 GCA_000618845.1 1446689 562 Escherichia coli O157:H7 str. K5602 K5602 Proteobacteria JHIC01000015.1 1554 GCA_000618865.1 1446690 562 Escherichia coli O157:H7 str. K5607 K5607 Proteobacteria JHIB01000088.1 1555 GCA_000618885.1 1446687 562 Escherichia coli O157:H7 str. K5460 K5460 Proteobacteria JHIE01000002.1 1556 GCA_000618925.2 1446697 562 Escherichia coli O157:H7 str. K7140 K7140 Proteobacteria JHHK01000016.1 1557 GCA_000618945.2 1446649 562 Escherichia coli O157:H7 str. 2011EL-2290 2011EL-2290 Proteobacteria JHKC01000008.1 1558 GCA_000618985.2 1446651 562 Escherichia coli O157:H7 str. 2011EL-2313 2011EL-2313 Proteobacteria JHKA01000028.1 1559 GCA_000619045.2 1446617 562 Escherichia coli O157:H7 str. 2009C-4258 2009C-4258 Proteobacteria JHGQ01000007.1 1560 GCA_000619145.1 1446618 562 Escherichia coli O157:H7 str. 2009EL1449 2009EL1449 Proteobacteria JHGF01000005.1 1561 GCA_000619165.1 1446620 562 Escherichia coli O157:H7 str. 2009EL1913 2009EL1913 Proteobacteria JHGD01000001.1 1562 GCA_000619185.1 1446588 562 Escherichia coli O145:NM str. 2010C-3508 2010C-3508 Proteobacteria JHFV01000110.1 1563 GCA_000619365.1 1446693 562 Escherichia coli O157:H7 str. K5852 K5852 Proteobacteria JHHY01000003.1 1564 GCA_000619385.1 1446694 562 Escherichia coli O157:H7 str. K6590 K6590 Proteobacteria JHHX01000008.1 1565 GCA_000619405.1 1446695 562 Escherichia coli O157:H7 str. K6676 K6676 Proteobacteria JHHW01000001.1 1566 GCA_000619425.1 1446696 562 Escherichia coli O157:H7 str. K6687 K6687 Proteobacteria JHHV01000121.1 1567 GCA_000619445.1 1446691 562 Escherichia coli O157:H7 str. K5609 K5609 Proteobacteria JHIA01000021.1 1568 GCA_000619665.1 1446616 562 Escherichia coli O157:H7 str. 08-4529 08-4529 Proteobacteria JHHI01000009.1 1569 GCA_000619685.2 1446698 562 Escherichia coli O157:NM str. 08-4540 08-4540 Proteobacteria JHHH01000020.1 1570 GCA_000627435.1 1444135 562 Escherichia coli 1-250-04_S3_C1 1-250-04_S3_C1 Proteobacteria JJLU01000053.1 1571 GCA_000627455.1 1444162 562 Escherichia coli 1-182-04_S3_C2 1-182-04_S3_C2 Proteobacteria JJLT01000250.1 1572 GCA_000627475.1 1444191 562 Escherichia coli 1-182-04_S3_C3 1-182-04_S3_C3 Proteobacteria JJLS01000230.1 1573 GCA_000627965.1 1444134 562 Escherichia coli 1-182-04_S3_C1 1-182-04_S3_C1 Proteobacteria JJLV01000176.1 1574 GCA_000632555.1 1446606 562 Escherichia coli O157: str. 2010EL-2044 2010EL-2044 Proteobacteria JHME01000103.1 1575 GCA_000632655.1 1446607 562 Escherichia coli O157: str. 2010EL-2045 2010EL-2045 Proteobacteria JHMD01000001.1 1576 GCA_000671295.1 1248823 562 Escherichia coli O145:H28 str. RM12581 RM12581 Proteobacteria CP007136.1 1577 GCA_000687105.1 1444147 562 Escherichia coli 2-005-03_S3_C2 2-005-03_S3_C2 Proteobacteria JMGT01000075.1 1578 GCA_000687125.1 1444037 562 Escherichia coli 2-011-08_S1_C1 2-011-08_S1_C1 Proteobacteria JMGQ01000091.1 1579 GCA_000695155.1 1078035 562 Escherichia coli O145:H28 str. 4865/96 4865/96 Proteobacteria JHEY01000012.1 1580 GCA_000695175.1 562 562 Escherichia coli MI10-01 Proteobacteria JHEZ01000002.1 1581 GCA_000700285.1 1444059 562 Escherichia coli 3-475-03_S1_C1 3-475-03_S1_C1 Proteobacteria JNMJ01000048.1 1582 GCA_000704005.1 1444151 562 Escherichia coli 2-177-06_S3_C2 2-177-06_S3_C2 Proteobacteria JNQF01000030.1 1583 GCA_000711415.1 1444071 562 Escherichia coli 2-316-03_S1_C2 2-316-03_S1_C2 Proteobacteria JOMX01000159.1 1584 GCA_000711475.1 1444042 562 Escherichia coli 2-316-03_S1_C1 2-316-03_S1_C1 Proteobacteria JOMW01000194.1 1585 GCA_000713175.1 1444281 562 Escherichia coli 6-175-07_S4_C3 6-175-07_S4_C3 Proteobacteria JORK01000060.1 1586 GCA_000713255.1 1444227 562 Escherichia coli 6-537-08_S4_C1 6-537-08_S4_C1 Proteobacteria JORS01000112.1 1587 GCA_000713605.1 1444257 562 Escherichia coli 6-537-08_S4_C2 6-537-08_S4_C2 Proteobacteria JOSG01000027.1 1588 GCA_000713745.1 1444179 562 Escherichia coli 2-177-06_S3_C3 2-177-06_S3_C3 Proteobacteria JOSO01000008.1 1589 GCA_000713815.1 1444163 562 Escherichia coli 1-250-04_S3_C2 1-250-04_S3_C2 Proteobacteria JOSR01000197.1 1590 GCA_000713905.1 1444087 562 Escherichia coli 3-475-03_S1_C2 3-475-03_S1_C2 Proteobacteria JOQC01000025.1 1591 GCA_000713985.1 1444196 562 Escherichia coli 4-203-08_S3_C3 4-203-08_S3_C3 Proteobacteria JOQH01000040.1 1592 GCA_000714055.1 1444171 562 Escherichia coli 4-203-08_S3_C2 4-203-08_S3_C2 Proteobacteria JOQK01000042.1 1593 GCA_000714385.1 1444226 562 Escherichia coli 6-175-07_S4_C1 6-175-07_S4_C1 Proteobacteria JORB01000108.1 1594 GCA_000714415.1 1444255 562 Escherichia coli 6-175-07_S4_C2 6-175-07_S4_C2 Proteobacteria JORC01000054.1 1595 GCA_000730345.1 1328859 562 Escherichia coli O157:H7 str. SS17 SS17 Proteobacteria CP008805.1 1596 GCA_000732965.1 155864 562 Escherichia coli O157:H7 str. EDL933 EDL933 Proteobacteria CP008957.1 1597 GCA_000797775.1 562 562 Escherichia coli CVM N34322PS Proteobacteria JUCY01000038.1 1598 GCA_000798235.1 562 562 Escherichia coli CVM N36834PS Proteobacteria JUCF01000078.1 1599 GCA_000798415.1 562 562 Escherichia coli CVM N34557PS Proteobacteria JUCU01000037.1 1600 GCA_000803705.1 1330457 562 Escherichia coli O157:H7 str. SS52 SS52 Proteobacteria CP010304.1 1601 GCA_000819265.1 562 562 Escherichia coli CVM N38428PS Proteobacteria JWYX01000074.1 1602 GCA_000934865.1 562 562 Escherichia coli ATCC 35150 Proteobacteria JXUS01000117.1 1603 GCA_000935075.1 562 562 Escherichia coli ATCC 35150 NalR Proteobacteria JYIO01000082.1 1604 GCA_000953765.1 562 562 Escherichia coli MCI_507 Proteobacteria JZSD01000085.1 1605 GCA_000965565.1 562 562 Escherichia coli St. Olav172 Proteobacteria JZDY01000017.1 1606 GCA_000965655.1 562 562 Escherichia coli St. Olav173 Proteobacteria JZDZ01000061.1 1607 GCA_000978815.1 83334 562 Escherichia coli O157:H7 7.1_Anguil Proteobacteria LAZD01000130.1 1608 GCA_000978845.1 83334 562 Escherichia coli O157:H7 Rafaela_II Proteobacteria LAYW01000314.1 1609 GCA_000986635.1 562 562 Escherichia coli C1-057 Proteobacteria LAZO01000001.1 1610 GCA_001006425.1 83334 562 Escherichia coli O157:H7 HB74 Proteobacteria LCWU01000234.1 1611 GCA_001012075.1 562 562 Escherichia coli CFSAN026805 Proteobacteria LDCU01000029.1 1612 GCA_001191125.1 562 562 Escherichia coli CFSAN026804 Proteobacteria LGZD01000035.1 1613 GCA_001191185.1 562 562 Escherichia coli CFSAN026847 Proteobacteria LGZE01000020.1 1614 GCA_001191195.1 562 562 Escherichia coli CFSAN026846 Proteobacteria LGZI01000146.1 1615 GCA_001191525.1 562 562 Escherichia coli CFSAN026848 Proteobacteria LHAB01000019.1 1616 GCA_001277695.1 562 562 Escherichia coli 503225_aEPEC Proteobacteria CYAV01000099.1 1617 GCA_001281685.1 562 562 Escherichia coli STEC 771 Proteobacteria LGAZ01000005.1 1618 GCA_001281725.1 562 562 Escherichia coli STEC 2868 Proteobacteria LGBJ01000009.1 1619 GCA_001281755.1 562 562 Escherichia coli E09/224 Proteobacteria LGBP01000024.1 1620 GCA_001281775.1 562 562 Escherichia coli STEC 989 Proteobacteria LGBA01000013.1 1621 GCA_001281795.1 562 562 Escherichia coli STEC 994 Proteobacteria LGBB01000045.1 1622 GCA_001281815.1 562 562 Escherichia coli STEC 1109 Proteobacteria LGBC01000012.1 1623 GCA_001281845.1 562 562 Escherichia coli STEC 2075 Proteobacteria LGBD01000011.1 1624 GCA_001281855.1 562 562 Escherichia coli STEC 2112 Proteobacteria LGBE01000001.1 1625 GCA_001281885.1 562 562 Escherichia coli STEC 2257 Proteobacteria LGBF01000023.1 1626 GCA_001281905.1 562 562 Escherichia coli STEC 2410 Proteobacteria LGBG01000006.1 1627 GCA_001281915.1 562 562 Escherichia coli STEC 2821 Proteobacteria LGBI01000140.1 1628 GCA_001281925.1 562 562 Escherichia coli STEC 2667 Proteobacteria LGBH01000007.1 1629 GCA_001281965.1 562 562 Escherichia coli E09/10 Proteobacteria LGBK01000008.1 1630 GCA_001281985.1 562 562 Escherichia coli EPEC 287 Proteobacteria LGBL01000025.1 1631 GCA_001281995.1 562 562 Escherichia coli EPEC 393 Proteobacteria LGBM01000019.1 1632 GCA_001282025.1 562 562 Escherichia coli EPEC 1572 Proteobacteria LGBN01000001.1 1633 GCA_001282035.1 562 562 Escherichia coli EPEC 1669 Proteobacteria LGBO01000067.1 1634 GCA_001282065.1 562 562 Escherichia coli STEC 2820 Proteobacteria LGBQ01000003.1 1635 GCA_001297975.1 562 562 Escherichia coli STEC 343 Proteobacteria LDOZ01000007.1 1636 GCA_001297985.1 562 562 Escherichia coli STEC 623 Proteobacteria LFUB01000011.1 1637 GCA_001297995.1 562 562 Escherichia coli STEC 605 Proteobacteria LFUA01000020.1 1638 GCA_001307215.1 83334 562 Escherichia coli O157:H7 WS4202 Proteobacteria CP012802.1 1639 GCA_001309715.1 562 562 Escherichia coli PARC447 Proteobacteria LECJ01000192.1 1640 GCA_001309815.1 562 562 Escherichia coli 03-6430 Proteobacteria LEAB01000117.1 1641 GCA_001309835.1 562 562 Escherichia coli PARC449 Proteobacteria LEAC01000125.1 1642 GCA_001309885.1 562 562 Escherichia coli CO6CE900 Proteobacteria LEAE01000148.1 1643 GCA_001309895.1 562 562 Escherichia coli CO6CE1353 Proteobacteria LEAF01000141.1 1644 GCA_001309905.1 562 562 Escherichia coli CO6CE1943 Proteobacteria LEAG01000046.1 1645 GCA_001309925.1 562 562 Escherichia coli CO6CE2940 Proteobacteria LEAH01000084.1 1646 GCA_001309965.1 562 562 Escherichia coli CO283 Proteobacteria LEAI01000013.1 1647 GCA_001309985.1 562 562 Escherichia coli 1935 Proteobacteria LEAD01000163.1 1648 GCA_001309995.1 562 562 Escherichia coli E0122 Proteobacteria LEAJ01000145.1 1649 GCA_001310005.1 562 562 Escherichia coli LCDC7236 Proteobacteria LEAK01000079.1 1650 GCA_001440045.1 83334 562 Escherichia coli O157:H7 G10 Proteobacteria LMXL01000097.1 1651 GCA_001484305.1 562 562 Escherichia coli AY63 Proteobacteria LLYF01000048.1 1652 GCA_001484355.1 562 562 Escherichia coli AY71 Proteobacteria LLYJ01000063.1 1653 GCA_001519775.1 562 562 Escherichia coli GN02140 Proteobacteria LQSF01000099.1 1654 GCA_001519815.1 562 562 Escherichia coli GN02298 Proteobacteria LQSX01000125.1 1655 GCA_001519835.1 562 562 Escherichia coli GN02290 Proteobacteria LQSW01000169.1 1656 GCA_001520115.1 562 562 Escherichia coli GN02343 Proteobacteria LQTC01000029.1 1657 GCA_001520235.1 562 562 Escherichia coli GN02514 Proteobacteria LQUF01000146.1 1658 GCA_001520275.1 562 562 Escherichia coli GN02359 Proteobacteria LQTG01000260.1 1659 GCA_001520435.1 562 562 Escherichia coli GN02430 Proteobacteria LQTU01000172.1 1660 GCA_001520495.1 562 562 Escherichia coli GN02426 Proteobacteria LQTS01000163.1 1661 GCA_001520575.1 562 562 Escherichia coli GN02674 Proteobacteria LQVA01000248.1 1662 GCA_001520835.1 562 562 Escherichia coli GN02707 Proteobacteria LQVE01000001.1 1663 GCA_001520935.1 562 562 Escherichia coli GN03218 Proteobacteria LQVQ01000300.1 1664 GCA_001520995.1 562 562 Escherichia coli GN02953 Proteobacteria LQVM01000164.1 1665 GCA_001558995.1 562 562 Escherichia coli JEONG-1266 Proteobacteria CP014314.1 1666 GCA_001571675.1 562 562 Escherichia coli UC5 Proteobacteria LRXT01000038.1 1667 GCA_001575305.1 562 562 Escherichia coli G19 Proteobacteria LONY01000024.1 1668 GCA_001576035.1 562 562 Escherichia coli G27 Proteobacteria LOOY01000033.1 1669 GCA_001576325.1 562 562 Escherichia coli G28 Proteobacteria LOOZ01000046.1 1670 GCA_000607265.1 1409787 571 Klebsiella oxytoca G54 G54 Proteobacteria KK097710.1 1671 GCA_001078255.1 883124 571 Klebsiella oxytoca 10-5249 10-5249 Proteobacteria KQ235791.1 1672 GCA_000493135.1 1328363 573 Klebsiella pneumoniae MGH 18 MGH 18 Proteobacteria KI535680.1 1673 GCA_000694715.1 1438797 573 Klebsiella pneumoniae MGH 74 MGH 74 Proteobacteria KK737643.1 1674 GCA_001033505.1 573 573 Klebsiella pneumoniae MGH84 Proteobacteria KQ089360.1 1675 GCA_001441285.1 573 573 Klebsiella pneumoniae B86 Proteobacteria UCD01000021.1 1676 GCA_001536385.1 615 615 Serratia marcescens 2880STDY5682927 Proteobacteria FCJI01000002.1 1677 GCA_001536405.1 615 615 Serratia marcescens 2880STDY5682928 Proteobacteria FCJJ01000003.1 1678 GCA_001536505.1 615 615 Serratia marcescens 2880STDY5682857 Proteobacteria FCHL01000002.1 1679 GCA_001536765.1 615 615 Serratia marcescens 2880STDY5682859 Proteobacteria FCHI01000002.1 1680 GCA_001536965.1 615 615 Serratia marcescens 2880STDY5682942 Proteobacteria FCJX01000002.1 1681 GCA_001537105.1 615 615 Serratia marcescens 2880STDY5683024 Proteobacteria FCGC01000003.1 1682 GCA_001537305.1 615 615 Serratia marcescens 2880STDY5682930 Proteobacteria FCML01000002.1 1683 GCA_001538765.1 615 615 Serratia marcescens 2880STDY5682826 Proteobacteria FCGQ01000002.1 1684 GCA_001538825.1 615 615 Serratia marcescens 2880STDY5682883 Proteobacteria FCIK01000002.1 1685 GCA_001539245.1 615 615 Serratia marcescens 2880STDY5682921 Proteobacteria FCJF01000002.1 1686 GCA_001539385.1 615 615 Serratia marcescens 2880STDY5682913 Proteobacteria FCIZ01000003.1 1687 GCA_001539425.1 615 615 Serratia marcescens 2880STDY5682877 Proteobacteria FCIC01000003.1 1688 GCA_001539605.1 615 615 Serratia marcescens 2880STDY5682984 Proteobacteria FCLJ01000003.1 1689 GCA_001539765.1 615 615 Serratia marcescens 2880STDY5682858 Proteobacteria FCHM01000002.1 1690 GCA_001539905.1 615 615 Serratia marcescens 2880STDY5682961 Proteobacteria FCKL01000002.1 1691 GCA_001540085.1 615 615 Serratia marcescens 2880STDY5682925 Proteobacteria FCMJ01000002.1 1692 GCA_001540185.1 615 615 Serratia marcescens 2880STDY5682832 Proteobacteria FCGT01000003.1 1693 GCA_001220145.1 630 630 Yersinia enterocolitica YE38/03 Proteobacteria CTKL01000007.1 1694 GCA_001116865.1 631 631 Yersinia intermedia 58735 Proteobacteria CQER01000002.1 1695 GCA_001010935.1 663 663 Vibrio alginolyticus V2 Proteobacteria LCSG01000013.1 1696 GCA_001262735.1 669 669 Vibrio harveyi VH2 Proteobacteria LGYS01000041.1 1697 GCA_001471575.1 669 669 Vibrio harveyi LMG 4044 Proteobacteria LOSK01000001.1 1698 GCA_000707125.1 670 670 Vibrio parahaemolyticus CFSAN007445 Proteobacteria JNTC01000018.1 1699 GCA_000786865.1 670 670 Vibrio parahaemolyticus 09.5357 Proteobacteria JTGT01000603.1 1700 GCA_000877715.1 1288794 670 Vibrio parahaemolyticus EN9701072 EN9701072 Proteobacteria AOPI01000067.1 1701 GCA_000877755.1 1288789 670 Vibrio parahaemolyticus 3644 3644 Proteobacteria AOPD01000386.1 1702 GCA_000960655.1 670 670 Vibrio parahaemolyticus 09-3217 Proteobacteria JZAQ01000061.1 1703 GCA_001006195.1 670 670 Vibrio parahaemolyticus 10-4255 Proteobacteria JYJT01000016.1 1704 GCA_001268045.1 670 670 Vibrio parahaemolyticus S456-5 Proteobacteria LFWN01000091.1 1705 GCA_001270155.1 670 670 Vibrio parahaemolyticus S439-9 Proteobacteria LFZA01000015.1 1706 GCA_001273575.1 670 670 Vibrio parahaemolyticus ISF-29-3 Proteobacteria LFYM01000016.1 1707 GCA_001559805.1 670 670 Vibrio parahaemolyticus A4EZ700 Proteobacteria LOBT01000012.1 1708 GCA_001595575.1 670 670 Vibrio parahaemolyticus A4EZ724 Proteobacteria LOHO01000038.1 1709 GCA_000338875.1 1259812 674 Vibrio mimicus CAIM 602 CAIM 602 Proteobacteria AOMO01000034.1 1710 GCA_000154025.1 410291 680 Vibrio campbellii HY01 HY01 Proteobacteria DS179487.1 1711 GCA_000178495.1 228399 715 Actinobacillus pleuropneumoniae serovar 1 str. 4074 4074 Proteobacteria ADOD01000018.1 1712 GCA_000178575.1 754258 715 Actinobacillus pleuropneumoniae serovar 9 str. CVJ13261 CVJ13261 Proteobacteria ADOI01000037.1 1713 GCA_000178615.1 754260 715 Actinobacillus pleuropneumoniae serovar 11 str. 56153 56153 Proteobacteria ADOK01000019.1 1714 GCA_000011785.1 205914 731 Haemophilus somnus 129PT 129PT Proteobacteria CP000436.1 1715 GCA_000598725.1 1339306 817 Bacteroides fragilis str. 3719 T6 3719 T6 Bacteroidetes JGEH01000041.1 1716 GCA_000598745.1 1339324 817 Bacteroides fragilis str. S24L26 S24L26 Bacteroidetes JGEN01000046.1 1717 GCA_000599005.1 1339323 817 Bacteroides fragilis str. S24L15 S24L15 Bacteroidetes JGEM01000110.1 1718 GCA_000599325.1 1339325 817 Bacteroides fragilis str. S24L34 S24L34 Bacteroidetes JGEO01000038.1 1719 GCA_001286525.1 817 817 Bacteroides fragilis BE1 Bacteroidetes LN877293.1 1720 GCA_000699745.1 1339341 823 Parabacteroides distasonis str. 3776 Po2 i 3776 Po2 i Bacteroidetes JNHL01000154.1 1721 GCA_000699785.1 1339342 823 Parabacteroides distasonis str. 3776 D15 i 3776 D15 i Bacteroidetes JNHK01000087.1 1722 GCA_000699805.1 1339343 823 Parabacteroides distasonis str. 3776 D15 iv 3776 D15 iv Bacteroidetes JNHU01000002.1 1723 GCA_001296085.1 76859 851 Fusobacterium nucleatum subsp. animalis KCOM 1279 Fusobacteria CP012713.1 1724 GCA_001546435.1 851 851 Fusobacterium nucleatum MJR7757B Fusobacteria KQ956653.1 1725 GCA_000163935.1 469621 860 Fusobacterium periodonticum 1_1_41FAA 1_1_41FAA Fusobacteria GG770381.1 1726 GCA_000143225.1 757424 964 Herbaspirillum seropedicae SmR1 SmR1 Proteobacteria CP002039.1 1727 GCA_001467505.1 28083 28083 Legionella birminghamensis CDC#1407-AL-14 Proteobacteria LNXT01000030.1 1728 GCA_000300175.1 1004787 28108 Alteromonas macleodii str. ‘Balearic Sea AD45’ Balearic Sea AD45 Proteobacteria CP003873.1 1729 GCA_000176155.1 675813 28172 Vibrio metschnikovii CIP 69.14 CIP 69.14 Proteobacteria ACZO01000003.1 1730 GCA_000723805.1 1238449 28173 Vibrio nigripulchritudo SO65 SO65 Proteobacteria LK391963.1 1731 GCA_001050595.1 1238430 28173 Vibrio nigripulchritudo AM115 AM115 Proteobacteria CANT01000061.1 1732 GCA_001050655.1 1238441 28173 Vibrio nigripulchritudo FTn2 FTn2 Proteobacteria CANW01000040.1 1733 GCA_001050675.1 1238445 28173 Vibrio nigripulchritudo Pon4 Pon4 Proteobacteria CAOA01000095.1 1734 GCA_000764185.1 28229 28229 Colwellia psychrerythraea GAB14E Proteobacteria JQEC01000001.1 1735 GCA_000182585.2 536230 28450 Burkholderia pseudomallei MSHR346 MSHR346 Proteobacteria ACOJ01000001.1 1736 GCA_000756105.1 28450 28450 Burkholderia pseudomallei MSHR346 Proteobacteria CP008763.1 1737 GCA_000757105.1 28450 28450 Burkholderia pseudomallei BDT Proteobacteria KN150939.1 1738 GCA_000770435.1 1437000 28450 Burkholderia pseudomallei MSHR1153 MSHR1153 Proteobacteria CP009272.1 1739 GCA_000774165.1 1435990 28450 Burkholderia pseudomallei MSHR543 MSHR543 Proteobacteria KN322990.1 1740 GCA_000774325.1 1434206 28450 Burkholderia pseudomallei MSHR4503 MSHR4503 Proteobacteria KN323005.1 1741 GCA_000774385.1 1434192 28450 Burkholderia pseudomallei MSHR3951 MSHR3951 Proteobacteria KN323013.1 1742 GCA_000774475.1 1434927 28450 Burkholderia pseudomallei MSHR3964 MSHR3964 Proteobacteria KN323023.1 1743 GCA_000774575.1 1434203 28450 Burkholderia pseudomallei MSHR3960 MSHR3960 Proteobacteria KN323029.1 1744 GCA_000775095.1 1439861 28450 Burkholderia pseudomallei TSV5 TSV5 Proteobacteria JQGY01000129.1 1745 GCA_000775105.1 1439859 28450 Burkholderia pseudomallei TSV32 TSV32 Proteobacteria JQHT01000033.1 1746 GCA_000959185.1 1249475 28450 Burkholderia pseudomallei MSHR840 MSHR840 Proteobacteria CP009474.1 1747 GCA_000696465.1 29471 29471 Pectobacterium atrosepticum JG10-08 Proteobacteria CP007744.1 1748 GCA_000740965.1 29471 29471 Pectobacterium atrosepticum 21A Proteobacteria CP009125.1 1749 GCA_001038685.1 1076138 29471 Pectobacterium atrosepticum ICMP 1526 ICMP 1526 Proteobacteria ALIV01000021.1 1750 GCA_000764325.1 29495 29495 Vibrio navarrensis ATCC 51183 Proteobacteria JMCG01000001.1 1751 GCA_000153205.1 314278 35797 Nitrococcus mobilis Nb-231 Nb-231 Proteobacteria CH672427.1 1752 GCA_000238375.3 1117314 43655 Pseudoalteromonas citrea DSM 8771 NCIMB 1889 Proteobacteria AHBZ02000108.1 1753 GCA_000238375.3 1117314 43655 Pseudoalteromonas citrea DSM 8771 NCIMB 1889 Proteobacteria AHBZ02000100.1 1754 GCA_000238315.3 1117317 43662 Pseudoalteromonas piscicida JCM 20779 JCM 20779 Proteobacteria AHCC02000002.1 1755 GCA_001467795.1 45067 45067 Legionella lansingensis ATCC 49751 Proteobacteria LNYI01000004.1 1756 GCA_000175195.1 637911 51047 Actinobacillus minor NM305 NM305 Proteobacteria ACQL01000154.1 1757 GCA_000807415.4 61645 61645 Enterobacter asburiae 35734 Proteobacteria CP012162.1 1758 GCA_000956965.1 61645 61645 Enterobacter asburiae 35618 Proteobacteria JZZI01000011.1 1759 GCA_001022755.1 61645 61645 Enterobacter asburiae GN02692 Proteobacteria LEDI01000011.1 1760 GCA_000786255.1 66269 66269 Pantoea stewartii M009 Proteobacteria JRWI01000007.1 1761 GCA_000803205.1 66269 66269 Pantoea stewartii M073a Proteobacteria JSXF01000009.1 1762 GCA_000023545.1 579405 69223 Dickeya paradisiaca Ech703 Ech703 Proteobacteria CP001654.1 1763 GCA_000153425.1 314280 74109 Photobacterium profundum 3TCK 3TCK Proteobacteria CH724134.1 1764 GCA_001449005.1 75105 75105 Paraburkholderia caribensis MWAP64 Proteobacteria CP013103.1 1765 GCA_000755725.1 95486 95486 Burkholderia cenocepacia DDS 22E-1 Proteobacteria CP007784.1 1766 GCA_001467585.1 1212489 96228 Legionella drozanskii LLAP-1 ATCC 700990 Proteobacteria LNXY01000001.1 1767 GCA_001527015.1 101571 101571 Burkholderia ubonensis MSMB1806WGS Proteobacteria LPBH01000095.1 1768 GCA_001527185.1 101571 101571 Burkholderia ubonensis MSMB1800WGS Proteobacteria LPBC01000010.1 1769 GCA_001528025.1 101571 101571 Burkholderia ubonensis MSMB2007WGS Proteobacteria LPBW01000043.1 1770 GCA_001528325.1 101571 101571 Burkholderia ubonensis MSMB2013WGS Proteobacteria LPCC01000068.1 1771 GCA_001528445.1 101571 101571 Burkholderia ubonensis MSMB2024WGS Proteobacteria LPCJ01000090.1 1772 GCA_001529565.1 101571 101571 Burkholderia ubonensis MSMB2022WGS Proteobacteria LPCI01000021.1 1773 GCA_001531605.1 101571 101571 Burkholderia ubonensis MSMB2104WGS Proteobacteria LPHJ01000073.1 1774 GCA_001532205.1 101571 101571 Burkholderia ubonensis MSMB2110WGS Proteobacteria LPHP01000067.1 1775 GCA_001532445.1 101571 101571 Burkholderia ubonensis MSMB2192WGS Proteobacteria LPIO01000050.1 1776 GCA_001532455.1 101571 101571 Burkholderia ubonensis MSMB2191WGS Proteobacteria LPIN01000075.1 1777 GCA_001532465.1 101571 101571 Burkholderia ubonensis MSMB2193WGS Proteobacteria LPIP01000082.1 1778 GCA_001534475.1 101571 101571 Burkholderia ubonensis MSMB2019WGS Proteobacteria LPND01000106.1 1779 GCA_001539165.1 101571 101571 Burkholderia ubonensis MSMB1490WGS Proteobacteria LPFP01000003.1 1780 GCA_000769475.1 111105 111105 Porphyromonas gulae COT-052 OH3498 Bacteroidetes KN300394.1 1781 GCA_000024725.1 472759 133539 Nitrosococcus halophilus Nc 4 Nc 4 Proteobacteria CP001798.1 1782 GCA_000183725.1 709032 148813 Sulfuricurvum kujiense DSM 16994 DSM 16994 Proteobacteria CP002355.1 1783 GCA_000412335.2 566551 158484 Cedecea davisae DSM 4568 DSM 4568 Proteobacteria KE161030.1 1784 GCA_001596815.1 162157 162157 Pseudoalteromonas spiralis DSM 16099 Proteobacteria LVCN01000040.1 1785 GCA_001465295.1 1315283 166935 Pseudoalteromonas translucida KMM 520 KMM 520 Proteobacteria CP011035.1 1786 GCA_001274855.1 170661 170661 Vibrio xuii DSM 17185 Proteobacteria LHPK01000025.1 1787 GCA_000755505.1 178606 178606 Leptospirillum ferriphilum DSM 14647 Nitrospirae JPGK01000006.1 1788 GCA_000967895.1 698738 188908 Oleispira antarctica RB-8 Proteobacteria FO203512.1 1789 GCA_000091465.1 575788 212663 Vibrio tasmaniensis LGP32 LGP32 Proteobacteria FM954972.2 1790 GCA_001298715.1 235205 235205 Bathymodiolus azoricus thioautotrophic gill symbiont BazSymA Proteobacteria CDSC01000438.1 1791 GCA_001048515.1 246167 246167 Vibrio crassostreae J5-20 Proteobacteria CCKB01000061.1 1792 GCA_001368855.1 246167 246167 Vibrio crassostreae J2-9 Proteobacteria LK934305.1 1793 GCA_000273235.1 997887 291644 Bacteroides salyersiae CL02T12C01 CL02T12C01 Bacteroidetes JH724309.1 1794 GCA_000422245.1 1121439 293256 Desulfovibrio alkalitolerans DSM 16529 DSM 16529 Proteobacteria ATHI01000027.1 1795 GCA_000310145.2 303682 303682 Thauera sp. 28 28 Proteobacteria AMXA01000025.1 1796 GCA_000153005.1 314290 314290 Vibrio sp. MED222 MED222 Proteobacteria CH902607.1 1797 GCA_000241185.2 386429 386429 Pseudoalteromonas sp. BSi20495 BSi20495 Proteobacteria BADY01000203.1 1798 GCA_000156355.1 637616 392484 Methylophaga thiooxydans DMS010 DMS010 Proteobacteria GG657892.1 1799 GCA_001525985.1 488446 488446 Burkholderia latens RF32-BP12 Proteobacteria LOTQ01000014.1 1800 GCA_000467165.1 1219077 512649 Vibrio azureus NBRC 104587 NBRC 104587 Proteobacteria BATL01000040.1 1801 GCA_000179655.1 517433 517433 Pantoea sp. aB aB Proteobacteria AEDL01000002.1 1802 GCA_000950415.1 553611 553611 Photobacterium leiognathi ATCC 25521 Proteobacteria JZSK01000008.1 1803 GCA_000969825.1 1203610 574930 Parabacteroides gordonii MS-1 MS-1 Bacteroidetes KQ033921.1 1804 GCA_000265075.1 1189621 590849 Nitritalea halalkaliphila LW7 LW7 Bacteroidetes AJYA01000079.1 1805 GCA_000176215.1 675810 675810 Vibrio sp. RC341 RC341 Proteobacteria ACZT01000026.1 1806 GCA_000176715.1 675815 675815 Vibrio sp. RC586 RC586 Proteobacteria ADBD01000008.1 1807 GCA_000224655.1 693988 693988 Bilophila sp. 4_1_30 4_1_30 Proteobacteria JH114231.1 1808 GCA_000785575.1 701175 701175 Vibrio caribbeanicus T14 Proteobacteria JRWR01000004.1 1809 GCA_000755345.1 754436 754436 Photobacterium aphoticum JCM 19237 Proteobacteria BBMN01000003.1 1810 GCA_000320365.1 1230338 765840 Moraxella macacae 0408225 0408225 Proteobacteria ANIN01000001.1 1811 GCA_000211855.3 983544 983544 Lacinutrix sp. 5H-3-7-4 5H-3-7-4 Bacteroidetes CP002825.1 1812 GCA_000305755.2 992012 992012 Vibrio sp. HENC-03 HENC-03 Proteobacteria JH976122.1 1813 GCA_000333895.2 1056512 1056512 Grimontia indica AK16 Proteobacteria ANFM02000072.1 1814 GCA_000722635.1 1137799 1137799 Endozoicomonas numazuensis DSM 25634 Proteobacteria JOKH01000001.1 1815 GCA_000276965.1 1177931 1177931 Thiovulum sp. ES ES Proteobacteria AKKQ01000015.1 1816 GCA_001541335.1 1194427 1194427 Vibrio toranzoniae Vb 10.8 Proteobacteria LMXU01000011.1 1817 GCA_000802255.1 1348852 1348852 Mumia flava MUSC 201 Actinobacteria JTDJ01000134.1 1818 GCA_000743945.1 1072685 1472345 Basilea psittacipulmonis DSM 24701 DSM 24701 Proteobacteria CP009238.1 1819 GCA_000830185.1 1539064 1539064 Sulfurovum sp. FS06-10 Proteobacteria JQIR01000120.1 1820 GCA_000830175.1 1539065 1539065 Sulfurovum sp. FS08-3 Proteobacteria JQIS01000009.1 1821 GCA_000292935.1 1216362 1583098 Fusobacterium hwasookii ChDC F128 ChDC F128 Fusobacteria ALVD01000001.1 1822 GCA_000807225.1 1583100 1583100 Myroides sp. A21 A21 Bacteroidetes CP010327.1 1823 GCA_001431295.1 1590043 1590043 Coxiellaceae bacterium HT99 HT99 Proteobacteria LKAJ01000001.1 1824 GCA_001188205.1 1647102 1647102 Vibrio sp. VPAP30 VPAP30 Proteobacteria LBLS01000036.1 1825 GCA_000695255.1 1654360 1654360 Photobacterium galatheae S2753 Proteobacteria JMIB01000002.1 1826 GCA_001011075.1 1656220 1656220 Serratia sp. TEL TEL Proteobacteria LDEG01000006.1 1827 GCA_001401805.1 1723758 1723758 Pseudoalteromonas sp. P1-25 P1-25 Proteobacteria LKDW01000016.1 1828 GCA_001421885.1 1736221 1736221 Pseudomonas sp. Leaf48 Leaf48 Proteobacteria LMLH01000030.1 1829 GCA_001544875.1 1777139 1777139 Burkholderia sp. LMG 29321 Proteobacteria FCOA01000023.1 1830 GCA_001537265.1 1805637 1805637 Serratia sp. 2880STDY5682895 2880STDY5682895 Proteobacteria FCJL01000002.1 (Part B) M Q U ZorA ZorB ZorC I J K L protein N O P protein R S T protein H #genes ZorA PRT SEQ DNA SEQ length ZorB PRT SEQ DNA SEQ length ZorC PRT SEQ DNA SEQ length 1 Type identified protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) 2 I 3 ABS66238.1 78 6649 704 ABS66239.1 79 6650 296 ABS66240.1 80 6651 469 3 I 4 KGH31560.1 81 6652 705 KGH31559.1 82 6653 248 KGH31558.1 83 6654 575 4 I 4 ABR84348.1 85 6656 708 ABR81630.1 86 6657 254 ABR85988.1 87 6658 648 5 I 4 EIE46557.1 89 6660 708 EIE46558.1 90 6661 254 EIE46559.1 91 6662 670 6 I 4 EKA35841.1 93 6664 731 EKA35840.1 94 6665 245 EKA35839.1 95 6666 528 7 I 4 EKA51673.1 97 6668 731 EKA51672.1 98 6669 245 EKA51671.1 99 6670 528 8 I 4 EOQ78914.1 101 6672 714 EOQ78913.1 102 6673 245 EOQ78912.1 103 6674 547 9 I 3 EQL43276.1 105 6676 708 EQL43277.1 106 6677 254 EQL43278.1 107 6678 417 10 I 4 ERY08923.1 108 6679 708 ERY08922.1 109 6680 254 ERY08921.1 110 6681 670 11 I 4 ERY16790.1 112 6683 731 ERY16789.1 113 6684 245 ERY16788.1 114 6685 558 12 I 4 ERY21334.1 116 6687 708 ERY21333.1 117 6688 254 ERY21332.1 118 6689 670 13 I 4 ERV56557.1 120 6691 708 ERV56556.1 121 6692 254 ERV56555.1 122 6693 670 14 I 4 ERX20611.1 124 6695 731 ERX20610.1 125 6696 245 ERX20609.1 126 6697 558 15 I 4 ERX27344.1 128 6699 731 ERX27343.1 129 6700 245 ERX27342.1 130 6701 558 16 I 4 ERZ22541.1 132 6703 731 ERZ22540.1 133 6704 245 ERZ22539.1 134 6705 558 17 I 4 ERX75596.1 136 6707 731 ERX75595.1 137 6708 245 ERX75594.1 138 6709 558 18 I 4 ESR70192.1 140 6711 731 ESR70191.1 141 6712 245 ESR70190.1 142 6713 558 19 I 4 ETU86359.1 144 6715 708 ETU86358.1 145 6716 254 ETU86357.1 146 6717 670 20 I 4 CDI94249.1 148 6719 708 CDI94248.1 149 6720 254 CDI94247.1 150 6721 255 21 I 4 CDI95166.1 152 6723 731 CDI95167.1 153 6724 245 CDI95168.1 154 6725 547 22 I 4 EVT82482.1 156 6727 708 EVT82481.1 157 6728 254 EVT82480.1 158 6729 663 23 I 4 EYU03497.1 160 6731 731 EYU03498.1 161 6732 245 EYU03499.1 162 6733 558 24 I 4 EZN45278.1 164 6735 781 EZN45279.1 165 6736 247 EZN45280.1 166 6737 723 25 I 4 EZO27044.1 168 6739 708 EZO27045.1 169 6740 254 EZO27046.1 170 6741 640 26 I 4 EZP05708.1 172 6743 708 EZP05709.1 173 6744 254 EZP05710.1 174 6745 640 27 I 4 CDH74042.1 176 6747 708 CDH74041.1 177 6748 254 CDH74040.1 178 6749 670 28 I 4 CDH70661.1 180 6751 731 CDH70662.1 181 6752 245 CDH70663.1 182 6753 547 29 I 4 KEA10735.1 184 6755 708 KEA10736.1 185 6756 254 KEA10737.1 186 6757 670 30 I 4 AJF50277.1 188 6759 731 AJF50276.1 189 6760 245 AJF50275.1 190 6761 547 31 I 4 AKE69360.1 192 6763 731 AKE69361.1 193 6764 245 AKE69362.1 194 6765 547 32 I 4 AKE72978.1 196 6767 708 AKE72977.1 197 6768 254 AKE72976.1 198 6769 670 33 I 4 CRQ30662.1 200 6771 708 CRQ30646.1 201 6772 254 CRQ30630.1 202 6773 670 34 I 4 CRQ14001.1 204 6775 731 CRQ14037.1 205 6776 245 CRQ14055.1 206 6777 547 35 I 4 CRQ20930.1 208 6779 708 CRQ20903.1 209 6780 254 CRQ20878.1 210 6781 670 36 I 4 CRP04583.1 212 6783 731 CRP04548.1 213 6784 245 CRP04515.1 214 6785 547 37 I 4 CRQ05457.1 216 6787 731 CRQ05470.1 217 6788 245 CRQ05489.1 218 6789 547 38 I 4 CRP94057.1 220 6791 708 CRP94029.1 221 6792 254 CRP94009.1 222 6793 670 39 I 4 CRP94866.1 224 6795 708 CRP94849.1 225 6796 254 CRP94824.1 226 6797 670 40 I 4 CRQ51053.1 228 6799 731 CRQ51040.1 229 6800 245 CRQ51031.1 230 6801 547 41 I 4 CRS01042.1 232 6803 708 CRS01058.1 233 6804 254 CRS01074.1 234 6805 670 42 I 4 CRX34600.1 236 6807 708 CRX34599.1 237 6808 254 CRX34598.1 238 6809 670 43 I 4 CRX35811.1 240 6811 731 CRX35810.1 241 6812 245 CRX35809.1 242 6813 547 44 I 4 CRN87107.1 244 6815 731 CRN87087.1 245 6816 245 CRN87069.1 246 6817 547 45 I 4 CRQ28236.1 248 6819 731 CRQ28254.1 249 6820 245 CRQ28266.1 250 6821 547 46 I 4 CRQ21539.1 252 6823 708 CRQ21557.1 253 6824 254 CRQ21576.1 254 6825 670 47 I 4 CRN79596.1 256 6827 708 CRN79621.1 257 6828 254 CRN79649.1 258 6829 670 48 I 4 CRO17466.1 260 6831 731 CRO17426.1 261 6832 245 CRO17380.1 262 6833 547 49 I 4 CRW80533.1 264 6835 708 CRW80527.1 265 6836 254 CRW80520.1 266 6837 670 50 I 4 CRW81746.1 268 6839 731 CRW81753.1 269 6840 245 CRW81763.1 270 6841 547 51 I 4 CRS64348.1 272 6843 731 CRS64342.1 273 6844 245 CRS64337.1 274 6845 547 52 I 4 CRS61289.1 276 6847 708 CRS61288.1 277 6848 254 CRS61287.1 278 6849 670 53 I 4 CRX10287.1 280 6851 731 CRX10279.1 281 6852 245 CRX10272.1 282 6853 547 54 I 4 CRX00557.1 284 6855 708 CRX00549.1 285 6856 254 CRX00541.1 286 6857 670 55 I 4 CRW55933.1 288 6859 731 CRW55913.1 289 6860 245 CRW55893.1 290 6861 547 56 I 4 CRX16431.1 292 6863 708 CRX16423.1 293 6864 254 CRX16416.1 294 6865 670 57 I 4 CRP10808.1 296 6867 708 CRP10838.1 297 6868 254 CRP10876.1 298 6869 670 58 I 4 CRP41275.1 300 6871 731 CRP41308.1 301 6872 245 CRP41345.1 302 6873 547 59 I 4 CRP14749.1 304 6875 708 CRP14725.1 305 6876 254 CRP14706.1 306 6877 670 60 I 4 CRP47753.1 308 6879 731 CRP47733.1 309 6880 245 CRP47704.1 310 6881 547 61 I 4 CRO88348.1 312 6883 731 CRO88299.1 313 6884 245 CRO88247.1 314 6885 547 62 I 4 CRO42842.1 316 6887 708 CRO42772.1 317 6888 254 CRO42732.1 318 6889 670 63 I 4 CRN87606.1 320 6891 731 CRN87577.1 321 6892 245 CRN87556.1 322 6893 547 64 I 4 CRN66199.1 324 6895 708 CRN66218.1 325 6896 254 CRN66246.1 326 6897 670 65 I 4 CRP41066.1 328 6899 708 CRP41088.1 329 6900 254 CRP41112.1 330 6901 670 66 I 4 CRP68499.1 332 6903 731 CRP68477.1 333 6904 245 CRP68458.1 334 6905 547 67 I 4 CRP76330.1 336 6907 708 CRP76294.1 337 6908 254 CRP76259.1 338 6909 670 68 I 4 CRQ24549.1 340 6911 731 CRQ24529.1 341 6912 245 CRQ24511.1 342 6913 547 69 I 4 CRP82373.1 344 6915 731 CRP82350.1 345 6916 245 CRP82329.1 346 6917 547 70 I 4 CRP61046.1 348 6919 708 CRP61016.1 349 6920 254 CRP60987.1 350 6921 670 71 I 4 CRP29707.1 352 6923 731 CRP29680.1 353 6924 245 CRP29649.1 354 6925 547 72 I 4 CRO50770.1 356 6927 708 CRO50854.1 357 6928 254 CRO50880.1 358 6929 670 73 I 3 CRP19911.1 360 6931 731 CRP19885.1 361 6932 245 CRP19855.1 362 6933 547 74 I 4 CRP88471.1 363 6934 708 CRP88447.1 364 6935 254 CRP88424.1 365 6936 670 75 I 4 CRP42118.1 367 6938 708 CRP42092.1 368 6939 254 CRP42069.1 369 6940 670 76 I 4 CRP91193.1 371 6942 731 CRP91170.1 372 6943 245 CRP91145.1 373 6944 547 77 I 4 CRN61579.1 375 6946 708 CRN61562.1 376 6947 254 CRN61546.1 377 6948 670 78 I 4 CRN91417.1 379 6950 731 CRN91437.1 380 6951 245 CRN91483.1 381 6952 547 79 I 4 CRP44694.1 383 6954 731 CRP44734.1 384 6955 245 CRP44770.1 385 6956 547 80 I 4 CRP16339.1 387 6958 708 CRP16291.1 388 6959 254 CRP16258.1 389 6960 670 81 I 4 CRP57045.1 391 6962 708 CRP57076.1 392 6963 254 CRP57102.1 393 6964 670 82 I 4 CRP83731.1 395 6966 731 CRP83754.1 396 6967 245 CRP83780.1 397 6968 547 83 I 4 CRO13767.1 399 6970 708 CRO13733.1 400 6971 254 CRO13695.1 401 6972 670 84 I 4 CRO55633.1 403 6974 731 CRO55573.1 404 6975 245 CRO55551.1 405 6976 547 85 I 4 CRO41585.1 407 6978 731 CRO41607.1 408 6979 245 CRO41618.1 409 6980 547 86 I 4 CRO12578.1 411 6982 708 CRO12630.1 412 6983 254 CRO12724.1 413 6984 670 87 I 4 CRP86193.1 415 6986 731 CRP86228.1 416 6987 245 CRP86261.1 417 6988 547 88 I 4 CRP43660.1 419 6990 708 CRP43627.1 420 6991 254 CRP43600.1 421 6992 670 89 I 4 CRP83380.1 423 6994 731 CRP83353.1 424 6995 245 CRP83330.1 425 6996 547 90 I 4 CRP15070.1 427 6998 708 CRP15101.1 428 6999 254 CRP15132.1 429 7000 670 91 I 4 CRP60638.1 431 7002 708 CRP60613.1 432 7003 254 CRP60586.1 433 7004 670 92 I 4 CRQ10821.1 435 7006 731 CRQ10804.1 436 7007 245 CRQ10786.1 437 7008 547 93 I 4 CRP54994.1 439 7010 731 CRP54888.1 440 7011 245 CRP54862.1 441 7012 547 94 I 4 CRP76342.1 443 7014 708 CRP76468.1 444 7015 254 CRP76497.1 445 7016 670 95 I 4 CRP45935.1 447 7018 731 CRP45955.1 448 7019 245 CRP45983.1 449 7020 547 96 I 4 CRP23202.1 451 7022 708 CRP23176.1 452 7023 254 CRP23144.1 453 7024 670 97 I 4 CRP65371.1 455 7026 708 CRP65407.1 456 7027 254 CRP65439.1 457 7028 670 98 I 4 CRP93880.1 459 7030 731 CRP93850.1 460 7031 245 CRP93825.1 461 7032 547 99 I 4 CRQ27494.1 463 7034 708 CRQ27510.1 464 7035 254 CRQ27528.1 465 7036 670 100 I 4 CRQ56582.1 467 7038 731 CRQ56568.1 468 7039 245 CRQ56555.1 469 7040 547 101 I 4 CRP80430.1 471 7042 731 CRP80455.1 472 7043 245 CRP80479.1 473 7044 547 102 I 4 CRP36068.1 475 7046 708 CRP36044.1 476 7047 254 CRP36016.1 477 7048 670 103 I 4 CRO87098.1 479 7050 708 CRO87131.1 480 7051 254 CRO87170.1 481 7052 670 104 I 4 CRP11508.1 483 7054 731 CRP11471.1 484 7055 245 CRP11443.1 485 7056 547 105 I 4 CRP24964.1 487 7058 731 CRP24937.1 488 7059 245 CRP24910.1 489 7060 547 106 I 4 CRO90638.1 491 7062 708 CRO90673.1 492 7063 254 CRO90698.1 493 7064 670 107 I 4 CRP17905.1 495 7066 731 CRP17871.1 496 7067 245 CRP17834.1 497 7068 547 108 I 4 CRO58804.1 499 7070 708 CRO58845.1 500 7071 254 CRO58885.1 501 7072 670 109 I 4 CRP27039.1 503 7074 708 CRP27013.1 504 7075 254 CRP26989.1 505 7076 670 110 I 4 CRP96092.1 507 7078 731 CRP96112.1 508 7079 245 CRP96135.1 509 7080 547 111 I 4 CRN60140.1 511 7082 708 CRN60167.1 512 7083 254 CRN60197.1 513 7084 670 112 I 4 CRO00267.1 515 7086 731 CRO00240.1 516 7087 245 CRO00221.1 517 7088 547 113 I 4 CRO92615.1 519 7090 731 CRO92586.1 520 7091 245 CRO92548.1 521 7092 547 114 I 4 CRO70145.1 523 7094 708 CRO70186.1 524 7095 254 CRO70227.1 525 7096 670 115 I 4 CRP22981.1 527 7098 708 CRP22953.1 528 7099 254 CRP22919.1 529 7100 670 116 I 4 CRP50679.1 531 7102 731 CRP50614.1 532 7103 245 CRP50550.1 533 7104 547 117 I 4 CRO39184.1 535 7106 731 CRO39213.1 536 7107 245 CRO39248.1 537 7108 547 118 I 4 CRO06753.1 539 7110 708 CRO06788.1 540 7111 254 CRO06822.1 541 7112 670 119 I 4 CRP41965.1 543 7114 731 CRP42029.1 544 7115 245 CRP42062.1 545 7116 547 120 I 4 CRP09067.1 547 7118 708 CRP09046.1 548 7119 254 CRP09026.1 549 7120 670 121 I 4 CRQ57015.1 551 7122 731 CRQ57008.1 552 7123 245 CRQ57001.1 553 7124 547 122 I 4 CRQ59344.1 555 7126 708 CRQ59358.1 556 7127 254 CRQ59370.1 557 7128 670 123 I 4 CRQ91414.1 559 7130 731 CRQ91399.1 560 7131 245 CRQ91388.1 561 7132 547 124 I 4 CRQ84133.1 563 7134 708 CRQ84121.1 564 7135 254 CRQ84110.1 565 7136 670 125 I 4 CRQ52280.1 567 7138 731 CRQ52265.1 568 7139 245 CRQ52253.1 569 7140 547 126 I 4 CRQ54273.1 571 7142 708 CRQ54285.1 572 7143 254 CRQ54295.1 573 7144 670 127 I 4 CRQ62274.1 575 7146 731 CRQ62260.1 576 7147 245 CRQ62248.1 577 7148 547 128 I 4 CRQ81707.1 579 7150 708 CRQ81699.1 580 7151 254 CRQ81693.1 581 7152 670 129 I 4 CRQ17118.1 583 7154 708 CRQ17143.1 584 7155 254 CRQ17167.1 585 7156 670 130 I 3 CRQ37524.1 587 7158 731 CRQ37557.1 588 7159 547 131 I 4 CRO85949.1 590 7161 731 CRO85973.1 591 7162 245 CRO86006.1 592 7163 547 132 I 4 CRQ40696.1 594 7165 708 CRQ40681.1 595 7166 254 CRQ40665.1 596 7167 670 133 I 4 CRQ91532.1 598 7169 731 CRQ91543.1 599 7170 245 CRQ91554.1 600 7171 547 134 I 4 CRQ79081.1 602 7173 708 CRQ79071.1 603 7174 254 CRQ79060.1 604 7175 670 135 I 4 CRR29704.1 606 7177 731 CRR29682.1 607 7178 245 CRR29660.1 608 7179 547 136 I 4 CRR29108.1 610 7181 708 CRR29090.1 611 7182 254 CRR29070.1 612 7183 670 137 I 4 CRR72780.1 614 7185 708 CRR72789.1 615 7186 254 CRR72803.1 616 7187 670 138 I 4 CRR80244.1 618 7189 731 CRR80233.1 619 7190 245 CRR80220.1 620 7191 547 139 I 4 CRR16521.1 622 7193 731 CRR16537.1 623 7194 245 CRR16555.1 624 7195 547 140 I 4 CRR21620.1 626 7197 708 CRR21592.1 627 7198 254 CRR21570.1 628 7199 670 141 I 4 CRQ92468.1 630 7201 731 CRQ92458.1 631 7202 245 CRQ92450.1 632 7203 547 142 I 4 CRQ86065.1 634 7205 708 CRQ86078.1 635 7206 254 CRQ86084.1 636 7207 670 143 I 4 CRQ59609.1 638 7209 731 CRQ59620.1 639 7210 245 CRQ59636.1 640 7211 547 144 I 4 CRQ56245.1 642 7213 708 CRQ56252.1 643 7214 254 CRQ56261.1 644 7215 670 145 I 4 CRR63837.1 646 7217 731 CRR63852.1 647 7218 245 CRR63868.1 648 7219 547 146 I 4 CRR21775.1 650 7221 708 CRR21754.1 651 7222 254 CRR21733.1 652 7223 670 147 I 3 CRO81150.1 654 7225 731 CRO81176.1 655 7226 245 CRO81209.1 656 7227 547 148 I 4 CRP93376.1 657 7228 708 CRP93350.1 658 7229 254 CRP93318.1 659 7230 670 149 I 4 CRR90631.1 661 7232 708 CRR90638.1 662 7233 254 CRR90645.1 663 7234 670 150 I 4 CRS00747.1 665 7236 731 CRS00755.1 666 7237 245 CRS00761.1 667 7238 547 151 I 4 CRR57318.1 669 7240 708 CRR57304.1 670 7241 254 CRR57289.1 671 7242 670 152 I 4 CRR67521.1 673 7244 731 CRR67533.1 674 7245 245 CRR67546.1 675 7246 547 153 I 4 CRR87278.1 677 7248 708 CRR87267.1 678 7249 254 CRR87255.1 679 7250 670 154 I 4 CRS01331.1 681 7252 731 CRS01339.1 682 7253 245 CRS01359.1 683 7254 547 155 I 4 CRX14782.1 685 7256 731 CRX14787.1 686 7257 245 CRX14795.1 687 7258 547 156 I 4 CRX13592.1 689 7260 708 CRX13600.1 690 7261 254 CRX13607.1 691 7262 670 157 I 4 CRX26819.1 693 7264 708 CRX26816.1 694 7265 254 CRX26813.1 695 7266 670 158 I 3 CRX28035.1 697 7268 731 CRX28038.1 698 7269 245 CRX28039.1 699 7270 547 159 I 4 CRP16698.1 700 7271 708 CRP16667.1 701 7272 254 CRP16635.1 702 7273 670 160 I 4 CRP62245.1 704 7275 731 CRP62208.1 705 7276 245 CRP62175.1 706 7277 547 161 I 4 CRO03605.1 708 7279 708 CRO03569.1 709 7280 254 CRO03532.1 710 7281 670 162 I 4 CRO33501.1 712 7283 731 CRO33459.1 713 7284 245 CRO33417.1 714 7285 547 163 I 4 CRS11181.1 716 7287 708 CRS11171.1 717 7288 254 CRS11162.1 718 7289 670 164 I 4 CRS17573.1 720 7291 731 CRS17567.1 721 7292 245 CRS17562.1 722 7293 547 165 I 4 CRR97327.1 724 7295 708 CRR97346.1 725 7296 254 CRR97362.1 726 7297 670 166 I 4 CRS12883.1 728 7299 731 CRS12896.1 729 7300 245 CRS12909.1 730 7301 547 167 I 4 CRP70706.1 732 7303 708 CRP70732.1 733 7304 254 CRP70763.1 734 7305 670 168 I 4 CRO21159.1 736 7307 731 CRO21133.1 737 7308 245 CRO21108.1 738 7309 547 169 I 4 CRO99304.1 740 7311 708 CRO99327.1 741 7312 254 CRO99358.1 742 7313 670 170 I 4 CRP25119.1 744 7315 731 CRP25093.1 745 7316 245 CRP25069.1 746 7317 547 171 I 4 CRP38742.1 748 7319 731 CRP38712.1 749 7320 245 CRP38676.1 750 7321 547 172 I 4 CRP11637.1 752 7323 708 CRP11607.1 753 7324 254 CRP11576.1 754 7325 670 173 I 4 CRP98506.1 756 7327 731 CRP98537.1 757 7328 245 CRP98562.1 758 7329 547 174 I 4 CRP72954.1 760 7331 708 CRP72921.1 761 7332 254 CRP72892.1 762 7333 670 175 I 4 CRX06558.1 764 7335 708 CRX06566.1 765 7336 254 CRX06574.1 766 7337 670 176 I 4 CRX13417.1 768 7339 731 CRX13424.1 769 7340 245 CRX13432.1 770 7341 547 177 I 4 CRR85713.1 772 7343 708 CRR85702.1 773 7344 254 CRR85691.1 774 7345 670 178 I 4 CRR95325.1 776 7347 731 CRR95318.1 777 7348 245 CRR95310.1 778 7349 547 179 I 4 CRR86767.1 780 7351 731 CRR86753.1 781 7352 245 CRR86739.1 782 7353 547 180 I 4 CRR89272.1 784 7355 708 CRR89280.1 785 7356 254 CRR89292.1 786 7357 670 181 I 4 CRS01732.1 788 7359 708 CRS01741.1 789 7360 254 CRS01755.1 790 7361 670 182 I 4 CRS11345.1 792 7363 731 CRS11336.1 793 7364 245 CRS11327.1 794 7365 547 183 I 4 CRR80918.1 796 7367 708 CRR80905.1 797 7368 254 CRR80897.1 798 7369 670 184 I 4 CRR92387.1 800 7371 731 CRR92379.1 801 7372 245 CRR92370.1 802 7373 547 185 I 4 CRR30277.1 804 7375 731 CRR30230.1 805 7376 245 CRR30212.1 806 7377 547 186 I 4 CRS13870.1 808 7379 708 CRS13874.1 809 7380 254 CRS13879.1 810 7381 670 187 I 4 CRS13774.1 812 7383 731 CRS13765.1 813 7384 245 CRS13757.1 814 7385 547 188 I 4 CRR98672.1 816 7387 708 CRR98685.1 817 7388 254 CRR98700.1 818 7389 670 189 I 4 CRS06208.1 820 7391 708 CRS06197.1 821 7392 254 CRS06186.1 822 7393 670 190 I 4 CRS13959.1 824 7395 731 CRS13968.1 825 7396 245 CRS13976.1 826 7397 547 191 I 4 CRW73950.1 828 7399 708 CRW73964.1 829 7400 254 CRW73981.1 830 7401 670 192 I 4 CRX24327.1 832 7403 731 CRX24332.1 833 7404 245 CRX24337.1 834 7405 547 193 I 4 CRX24419.1 836 7407 731 CRX24414.1 837 7408 245 CRX24410.1 838 7409 547 194 I 4 CRX17855.1 840 7411 708 CRX17846.1 841 7412 254 CRX17835.1 842 7413 670 195 I 4 CRR62909.1 844 7415 731 CRR62897.1 845 7416 245 CRR62885.1 846 7417 547 196 I 4 CRX06842.1 848 7419 708 CRX06835.1 849 7420 254 CRX06827.1 850 7421 670 197 I 4 CRX13728.1 852 7423 731 CRX13735.1 853 7424 245 CRX13742.1 854 7425 547 198 I 4 CRR17604.1 856 7427 731 CRR17580.1 857 7428 245 CRR17565.1 858 7429 547 199 I 4 CRQ30116.1 860 7431 708 CRQ30103.1 861 7432 254 CRQ30089.1 862 7433 670 200 I 4 CRR51933.1 864 7435 731 CRR51916.1 865 7436 245 CRR51899.1 866 7437 547 201 I 4 CRQ97183.1 868 7439 708 CRQ97164.1 869 7440 254 CRQ97143.1 870 7441 670 202 I 4 KQJ58852.1 872 7443 708 KQJ58851.1 873 7444 254 KQJ58850.1 874 7445 670 203 I 4 KRU98874.1 876 7447 731 KRU98873.1 877 7448 245 KRU98872.1 878 7449 558 204 I 4 KRV03410.1 880 7451 731 KRV03411.1 881 7452 245 KRV03412.1 882 7453 558 205 I 4 KRU83200.1 884 7455 731 KRU83199.1 885 7456 245 KRU83198.1 886 7457 558 206 I 4 KRU92657.1 888 7459 731 KRU92656.1 889 7460 245 KRU92655.1 890 7461 558 207 I 4 KSD25189.1 892 7463 708 KSD25190.1 893 7464 254 KSD25191.1 894 7465 670 208 I 4 KSD74108.1 896 7467 708 KSD74107.1 897 7468 254 KSD74106.1 898 7469 721 209 I 4 KSD60218.1 900 7471 708 KSD60219.1 901 7472 254 KSD60220.1 902 7473 670 210 I 4 KSD87958.1 904 7475 731 KSD87957.1 905 7476 245 KSD87956.1 906 7477 547 211 I 4 KSD88699.1 908 7479 708 KSD88700.1 909 7480 254 KSD88701.1 910 7481 670 212 I 4 KSD50146.1 912 7483 731 KSD50145.1 913 7484 245 KSD50144.1 914 7485 547 213 I 4 KSD56745.1 916 7487 708 KSD56744.1 917 7488 254 KSD56743.1 918 7489 670 214 I 4 KSE06419.1 920 7491 708 KSE06418.1 921 7492 254 KSE06417.1 922 7493 670 215 I 4 KSD97264.1 924 7495 731 KSD97265.1 925 7496 245 KSD97266.1 926 7497 547 216 I 4 KSE55326.1 928 7499 731 KSE55325.1 929 7500 245 KSE55324.1 930 7501 547 217 I 4 KSE57194.1 932 7503 708 KSE57195.1 933 7504 254 KSE57196.1 934 7505 670 218 I 4 KSE67397.1 936 7507 731 KSE67396.1 937 7508 245 KSE67395.1 938 7509 547 219 I 4 KSE22580.1 940 7511 731 KSE22579.1 941 7512 245 KSE22578.1 942 7513 547 220 I 4 KSE22789.1 944 7515 708 KSE22790.1 945 7516 254 KSE22791.1 946 7517 670 221 I 4 KSG55970.1 948 7519 708 KSG55971.1 949 7520 254 KSG55972.1 950 7521 670 222 I 4 KSH11345.1 952 7523 708 KSH11346.1 953 7524 254 KSH11347.1 954 7525 670 223 I 4 KSC39038.1 956 7527 731 KSC39037.1 957 7528 245 KSC39036.1 958 7529 558 224 I 4 KSC26153.1 960 7531 731 KSC26154.1 961 7532 245 KSC26155.1 962 7533 547 225 I 4 KSC92702.1 964 7535 708 KSC92703.1 965 7536 254 KSC92704.1 966 7537 670 226 I 4 KSD59501.1 968 7539 708 KSD59502.1 969 7540 254 KSD59503.1 970 7541 670 227 I 4 KSD58176.1 972 7543 731 KSD58175.1 973 7544 245 KSD58174.1 974 7545 547 228 I 4 KSE83336.1 976 7547 708 KSE83337.1 977 7548 254 KSE83338.1 978 7549 670 229 I 4 KSI47359.1 980 7551 731 KSI47360.1 981 7552 245 KSI47361.1 982 7553 547 230 I 4 KSI07558.1 984 7555 731 KSI07557.1 985 7556 245 KSI07556.1 986 7557 547 231 I 4 KSJ10824.1 988 7559 708 KSJ10823.1 989 7560 254 KSJ10822.1 990 7561 670 232 I 4 KSJ26235.1 992 7563 708 KSJ26234.1 993 7564 254 KSJ26233.1 994 7565 670 233 I 4 KSJ98813.1 996 7567 731 KSJ98814.1 997 7568 245 KSJ98815.1 998 7569 558 234 I 4 KSK91641.1 1000 7571 731 KSK91642.1 1001 7572 245 KSK91643.1 1002 7573 547 235 I 4 KSL06910.1 1004 7575 731 KSL06911.1 1005 7576 245 KSL06912.1 1006 7577 558 236 I 4 KSM47321.1 1008 7579 731 KSM47320.1 1009 7580 245 KSM47319.1 1010 7581 558 237 I 4 KSM41525.1 1012 7583 708 KSM41524.1 1013 7584 254 KSM41523.1 1014 7585 721 238 I 4 KSN32759.1 1016 7587 731 KSN32760.1 1017 7588 245 KSN32761.1 1018 7589 547 239 I 4 KSN33320.1 1020 7591 708 KSN33321.1 1021 7592 254 KSN33322.1 1022 7593 670 240 I 4 KSN27912.1 1024 7595 731 KSN27911.1 1025 7596 245 KSN27910.1 1026 7597 547 241 I 4 KSN02517.1 1028 7599 708 KSN02518.1 1029 7600 254 KSN02519.1 1030 7601 640 242 I 4 KSN94642.1 1032 7603 731 KSN94643.1 1033 7604 245 KSN94644.1 1034 7605 558 243 I 4 KSN59773.1 1036 7607 708 KSN59774.1 1037 7608 254 KSN59775.1 1038 7609 670 244 I 4 KSN68235.1 1040 7611 731 KSN68236.1 1041 7612 245 KSN68237.1 1042 7613 547 245 I 4 KSO78871.1 1044 7615 731 KSO78872.1 1045 7616 245 KSO78873.1 1046 7617 558 246 I 4 KSO73926.1 1048 7619 731 KSO73925.1 1049 7620 245 KSO73924.1 1050 7621 547 247 I 4 KSO74314.1 1052 7623 708 KSO74313.1 1053 7624 254 KSO74312.1 1054 7625 670 248 I 4 KSO93081.1 1056 7627 708 KSO93082.1 1057 7628 254 KSO93083.1 1058 7629 670 249 I 4 KSO91845.1 1060 7631 731 KSO91844.1 1061 7632 245 KSO91843.1 1062 7633 547 250 I 4 KSP60331.1 1064 7635 708 KSP60332.1 1065 7636 254 KSP60333.1 1066 7637 670 251 I 4 KSP82596.1 1068 7639 782 KSP82595.1 1069 7640 247 KSP82594.1 1070 7641 723 252 I 4 KSQ11856.1 1072 7643 731 KSQ11855.1 1073 7644 245 KSQ11854.1 1074 7645 558 253 I 4 KSN68769.1 1076 7647 731 KSN68770.1 1077 7648 245 KSN68771.1 1078 7649 558 254 I 4 KSO40824.1 1080 7651 708 KSO40825.1 1081 7652 254 KSO40826.1 1082 7653 721 255 I 4 KSQ48400.1 1084 7655 708 KSQ48399.1 1085 7656 254 KSQ48398.1 1086 7657 670 256 I 4 KSQ47084.1 1088 7659 731 KSQ47083.1 1089 7660 245 KSQ47082.1 1090 7661 547 257 I 4 KSQ03908.1 1092 7663 708 KSQ03907.1 1093 7664 254 KSQ03906.1 1094 7665 670 258 I 4 KSQ01968.1 1096 7667 731 KSQ01967.1 1097 7668 245 KSQ01966.1 1098 7669 547 259 I 4 KSR61594.1 1100 7671 708 KSR61593.1 1101 7672 254 KSR61592.1 1102 7673 721 260 I 4 KSR90896.1 1104 7675 708 KSR90897.1 1105 7676 254 KSR90898.1 1106 7677 670 261 I 4 KSR87673.1 1108 7679 731 KSR87674.1 1109 7680 245 KSR87675.1 1110 7681 558 262 I 4 KSR56106.1 1112 7683 731 KSR56105.1 1113 7684 245 KSR56104.1 1114 7685 547 263 I 4 KSR68843.1 1116 7687 708 KSR68842.1 1117 7688 254 KSR68841.1 1118 7689 670 264 I 4 KSS83648.1 1120 7691 708 KSS83647.1 1121 7692 254 KSS83646.1 1122 7693 670 265 I 4 KSS82297.1 1124 7695 731 KSS82296.1 1125 7696 245 KSS82295.1 1126 7697 547 266 I 4 KSS65852.1 1128 7699 731 KSS65851.1 1129 7700 245 KSS65850.1 1130 7701 547 267 I 4 KSS71074.1 1132 7703 708 KSS71073.1 1133 7704 254 KSS71072.1 1134 7705 670 268 I 4 KSS83671.1 1136 7707 731 KSS83670.1 1137 7708 245 KSS83669.1 1138 7709 547 269 I 4 KSS97189.1 1140 7711 708 KSS97188.1 1141 7712 254 KSS97187.1 1142 7713 670 270 I 4 KSS68542.1 1144 7715 731 KSS68541.1 1145 7716 245 KSS68540.1 1146 7717 547 271 I 4 KSS64139.1 1148 7719 708 KSS64138.1 1149 7720 254 KSS64137.1 1150 7721 670 272 I 4 KST02401.1 1152 7723 708 KST02402.1 1153 7724 254 KST02403.1 1154 7725 670 273 I 4 KST01506.1 1156 7727 731 KST01505.1 1157 7728 245 KST01504.1 1158 7729 547 274 I 4 KST09053.1 1160 7731 708 KST09052.1 1161 7732 254 KST09051.1 1162 7733 670 275 I 4 KST07356.1 1164 7735 731 KST07355.1 1165 7736 245 KST07354.1 1166 7737 547 276 I 4 KSR39888.1 1168 7739 708 KSR39889.1 1169 7740 254 KSR39890.1 1170 7741 670 277 I 4 KST03849.1 1172 7743 731 KST03848.1 1173 7744 245 KST03847.1 1174 7745 547 278 I 4 KST05251.1 1176 7747 708 KST05250.1 1177 7748 254 KST05249.1 1178 7749 670 279 I 4 KSS85815.1 1180 7751 708 KSS85816.1 1181 7752 254 KSS85817.1 1182 7753 670 280 I 4 KSS83938.1 1184 7755 731 KSS83937.1 1185 7756 245 KSS83936.1 1186 7757 547 281 I 4 KTF54396.1 1188 7759 708 KTF54397.1 1189 7760 254 KTF54398.1 1190 7761 670 282 I 4 KTF49811.1 1192 7763 731 KTF49810.1 1193 7764 245 KTF49809.1 1194 7765 547 283 I 4 KTK55766.1 1196 7767 782 KTK55767.1 1197 7768 247 KTK55768.1 1198 7769 723 284 I 4 ALZ13984.1 1200 7771 782 ALZ13983.1 1201 7772 247 ALZ13982.1 1202 7773 723 285 I 4 ALY33856.1 1204 7775 731 ALY33855.1 1205 7776 245 ALY33854.1 1206 7777 558 286 I 4 ALY39460.1 1208 7779 731 ALY39461.1 1209 7780 245 ALY39462.1 1210 7781 547 287 I 4 ALY43157.1 1212 7783 708 ALY43156.1 1213 7784 254 ALY43155.1 1214 7785 670 288 I 3 KWR99692.1 1216 7787 731 KWR99691.1 1217 7788 245 KWR99690.1 1218 7789 547 289 I 3 KWZ69450.1 1219 7790 708 KWZ69449.1 1220 7791 254 290 I 4 KXG16565.1 1222 7793 708 KXG16566.1 1223 7794 254 KXG16567.1 1224 7795 670 291 I 4 KYO75360.1 1226 7797 708 KYO75361.1 1227 7798 254 KYO75362.1 1228 7799 670 292 I 3 KIS47213.1 1230 7801 670 KIS48415.1 1231 7802 131 293 I 4 KVA56588.1 1233 7804 670 KVA56589.1 1234 7805 241 KVA56590.1 1235 7806 545 294 I 4 KVC33765.1 1237 7808 670 KVC33766.1 1238 7809 241 KVC33767.1 1239 7810 545 295 I 4 AEV65174.1 1241 7812 608 AEV65173.1 1242 7813 247 AEV65172.1 1243 7814 542 296 I 4 KGE64068.1 1245 7816 730 KGE64069.1 1246 7817 247 KGE64070.1 1247 7818 542 297 I 4 KWV80506.1 1249 7820 781 KWV80505.1 1250 7821 248 KWV80504.1 1251 7822 704 298 I 4 ABQ80738.1 1253 7824 730 ABQ80737.1 1254 7825 247 ABQ80736.1 1255 7826 541 299 I 4 AFK68697.1 1257 7828 730 AFK68696.1 1258 7829 247 AFK68695.1 1259 7830 541 300 I 4 EMR48530.1 1261 7832 781 EMR48531.1 1262 7833 254 EMR48532.1 1263 7834 681 301 I 4 AGA73017.1 1265 7836 730 AGA73018.1 1266 7837 247 AGA73019.1 1267 7838 542 302 I 4 KTC24575.1 1269 7840 782 KTC24464.1 1270 7841 247 KTC24463.1 1271 7842 626 303 I 4 ABP79163.1 1273 7844 783 ABP79164.1 1274 7845 254 ABP79165.1 1275 7846 210 304 I 4 AEA83397.1 1277 7848 781 AEA83398.1 1278 7849 254 AEA83399.1 1279 7850 751 305 I 4 EHY79730.1 1281 7852 781 EHY79731.1 1282 7853 254 EHY79732.1 1283 7854 751 306 I 4 AFM32806.1 1285 7856 781 AFM32807.1 1286 7857 254 AFM32808.1 1287 7858 752 307 I 4 EWC39447.1 1289 7860 682 EWC39446.1 1290 7861 245 EWC39445.1 1291 7862 558 308 I 3 EPL62183.1 1293 7864 781 EPL62184.1 1294 7865 254 309 I 4 EPM44374.1 1296 7867 659 EPM44375.1 1297 7868 247 EPM44377.1 1298 7869 378 310 I 4 EPN29003.1 1300 7871 659 EPN29004.1 1301 7872 247 EPN29005.1 1302 7873 518 311 I 4 EPN47277.1 1304 7875 659 EPN47278.1 1305 7876 247 EPN47280.1 1306 7877 378 312 I 4 EPN38583.1 1308 7879 659 EPN38584.1 1309 7880 247 EPN38585.1 1310 7881 545 313 I 4 EPN31613.1 1312 7883 659 EPN31614.1 1313 7884 247 EPN31616.1 1314 7885 378 314 I 4 EPN22775.1 1316 7887 659 EPN22776.1 1317 7888 247 EPN22777.1 1318 7889 545 315 I 4 EPN13939.1 1320 7891 659 EPN13938.1 1321 7892 247 EPN13936.1 1322 7893 378 316 I 4 EPM64842.1 1324 7895 659 EPM64843.1 1325 7896 247 EPM64844.1 1326 7897 545 317 I 4 KFE44523.1 1328 7899 730 KFE44522.1 1329 7900 247 KFE44521.1 1330 7901 542 318 I 4 KTC49637.1 1332 7903 730 KTC49636.1 1333 7904 247 KTC49752.1 1334 7905 545 319 I 4 AAM40747.1 1336 7907 629 AAM40748.1 1337 7908 238 AAM40749.1 1338 7909 491 320 I 4 AAY49837.1 1340 7911 629 AAY49836.1 1341 7912 238 AAY49835.1 1342 7913 491 321 I 4 AKS16757.1 1344 7915 629 AKS16756.1 1345 7916 238 AKS18353.1 1346 7917 491 322 I 4 ACP24372.1 1348 7919 481 ACP24373.1 1349 7920 309 ACP24374.1 1350 7921 437 323 I 3 KUM25652.1 1352 7923 675 KUM25651.1 1353 7924 323 KUM25650.1 1354 7925 413 324 I 4 KUM27288.1 1355 7926 723 KUM27287.1 1356 7927 302 KUM27286.1 1357 7928 460 325 I 4 CDZ72588.1 1359 7930 677 CDZ72587.1 1360 7931 326 CDZ72586.1 1361 7932 389 326 I 4 ACK84139.1 1363 7934 685 ACK84140.1 1364 7935 296 ACK84141.1 1365 7936 438 327 I 4 CAH15308.1 1367 7938 657 CAH15307.1 1368 7939 234 CAH15306.1 1369 7940 482 328 I 4 CCD05132.1 1371 7942 636 CCD05131.1 1372 7943 234 CCD05130.1 1373 7944 482 329 I 4 CZL99121.1 1375 7946 636 CZL99087.1 1376 7947 234 CZL99058.1 1377 7948 482 330 I 4 CZN28597.1 1379 7950 636 CZN28565.1 1380 7951 234 CZN28532.1 1381 7952 482 331 I 4 CZP40404.1 1383 7954 636 CZP40292.1 1384 7955 234 CZP40266.1 1385 7956 482 332 I 4 CZP31110.1 1387 7958 636 CZP31151.1 1388 7959 234 CZP31189.1 1389 7960 482 333 I 4 CZP19884.1 1391 7962 636 CZP19847.1 1392 7963 234 CZP19810.1 1393 7964 482 334 I 4 CZN56655.1 1395 7966 636 CZN56617.1 1396 7967 234 CZN56586.1 1397 7968 482 335 I 4 CZN22035.1 1399 7970 636 CZN21995.1 1400 7971 234 CZN21949.1 1401 7972 482 336 I 4 CZP49453.1 1403 7974 636 CZP49417.1 1404 7975 234 CZP49379.1 1405 7976 482 337 I 4 CZP60974.1 1407 7978 636 CZP61042.1 1408 7979 234 CZP61132.1 1409 7980 482 338 I 4 CZN58239.1 1411 7982 636 CZN58276.1 1412 7983 234 CZN58324.1 1413 7984 482 339 I 4 CZO62381.1 1415 7986 636 CZO62416.1 1416 7987 234 CZO62452.1 1417 7988 482 340 I 4 CZO85409.1 1419 7990 636 CZO85444.1 1420 7991 234 CZO85483.1 1421 7992 482 341 I 4 CZN18702.1 1423 7994 636 CZN18741.1 1424 7995 234 CZN18776.1 1425 7996 482 342 I 4 CZO33191.1 1427 7998 636 CZO33228.1 1428 7999 234 CZO33267.1 1429 8000 482 343 I 4 CZN48685.1 1431 8002 636 CZN48726.1 1432 8003 234 CZN48784.1 1433 8004 482 344 I 4 CZO35301.1 1435 8006 636 CZO35341.1 1436 8007 234 CZO35376.1 1437 8008 482 345 I 4 CZL93468.1 1439 8010 636 CZL93499.1 1440 8011 234 CZL93535.1 1441 8012 482 346 I 4 CZH31955.1 1443 8014 636 CZH31923.1 1444 8015 234 CZH31901.1 1445 8016 482 347 I 4 CZG09013.1 1447 8018 636 CZG09061.1 1448 8019 234 CZG09117.1 1449 8020 482 348 I 4 CZO58196.1 1451 8022 636 CZO58161.1 1452 8023 234 CZO58116.1 1453 8024 482 349 I 4 CZP31281.1 1455 8026 636 CZP31240.1 1456 8027 234 CZP31204.1 1457 8028 482 350 I 4 CZP25054.1 1459 8030 636 CZP25088.1 1460 8031 234 CZP25128.1 1461 8032 482 351 I 4 CZO87032.1 1463 8034 636 CZO87064.1 1464 8035 234 CZO87079.1 1465 8036 482 352 I 4 CZP12610.1 1467 8038 636 CZP12634.1 1468 8039 234 CZP12658.1 1469 8040 482 353 I 4 CZO76824.1 1471 8042 636 CZO76768.1 1472 8043 234 CZO76725.1 1473 8044 482 354 I 4 CZM76075.1 1475 8046 636 CZM76043.1 1476 8047 234 CZM76014.1 1477 8048 482 355 I 4 CZM80398.1 1479 8050 636 CZM80434.1 1480 8051 234 CZM80464.1 1481 8052 482 356 I 4 CZO03095.1 1483 8054 636 CZO03125.1 1484 8055 234 CZO03159.1 1485 8056 482 357 I 4 CZO99703.1 1487 8058 636 CZO99672.1 1488 8059 234 CZO99644.1 1489 8060 482 358 I 4 CZN78011.1 1491 8062 636 CZN77981.1 1492 8063 234 CZN77962.1 1493 8064 482 359 I 4 CZO69823.1 1495 8066 636 CZO69863.1 1496 8067 234 CZO69902.1 1497 8068 482 360 I 4 CZO98643.1 1499 8070 636 CZO98681.1 1500 8071 234 CZO98721.1 1501 8072 482 361 I 4 CZN87164.1 1503 8074 636 CZN87203.1 1504 8075 234 CZN87237.1 1505 8076 482 362 I 4 CZO29078.1 1507 8078 636 CZO29056.1 1508 8079 234 CZO29002.1 1509 8080 482 363 I 4 CZO58157.1 1511 8082 636 CZO58193.1 1512 8083 234 CZO58228.1 1513 8084 482 364 I 4 CZM99522.1 1515 8086 636 CZM99497.1 1516 8087 234 CZM99482.1 1517 8088 482 365 I 4 CZN97533.1 1519 8090 636 CZN97560.1 1520 8091 234 CZN97585.1 1521 8092 482 366 I 4 CZN56114.1 1523 8094 636 CZN56138.1 1524 8095 234 CZN56241.1 1525 8096 482 367 I 4 CZP07429.1 1527 8098 636 CZP07390.1 1528 8099 234 CZP07358.1 1529 8100 482 368 I 4 CZP63511.1 1531 8102 636 CZP63546.1 1532 8103 234 CZP63581.1 1533 8104 482 369 I 4 CZM58627.1 1535 8106 636 CZM58593.1 1536 8107 234 CZM58562.1 1537 8108 482 370 I 4 CZN95768.1 1539 8110 636 CZN95715.1 1540 8111 234 CZN95664.1 1541 8112 482 371 I 4 CZN53092.1 1543 8114 636 CZN53126.1 1544 8115 234 CZN53175.1 1545 8116 482 372 I 4 CZN21729.1 1547 8118 636 CZN21768.1 1548 8119 234 CZN21791.1 1549 8120 482 373 I 4 CZO54055.1 1551 8122 636 CZO54008.1 1552 8123 234 CZO53982.1 1553 8124 482 374 I 4 CZO83037.1 1555 8126 636 CZO83063.1 1556 8127 234 CZO83078.1 1557 8128 482 375 I 4 CZM80662.1 1559 8130 636 CZM80631.1 1560 8131 234 CZM80598.1 1561 8132 482 376 I 4 CZN76327.1 1563 8134 636 CZN76305.1 1564 8135 234 CZN76257.1 1565 8136 482 377 I 4 CZN17181.1 1567 8138 636 CZN17217.1 1568 8139 234 CZN17250.1 1569 8140 482 378 I 4 CZN08820.1 1571 8142 636 CZN08778.1 1572 8143 234 CZN08740.1 1573 8144 482 379 I 4 CZN07776.1 1575 8146 636 CZN07744.1 1576 8147 234 CZN07717.1 1577 8148 482 380 I 4 CZN26973.1 1579 8150 636 CZN27020.1 1580 8151 234 CZN27059.1 1581 8152 482 381 I 4 CZO91605.1 1583 8154 636 CZO91570.1 1584 8155 234 CZO91532.1 1585 8156 482 382 I 4 CZN16140.1 1587 8158 636 CZN16106.1 1588 8159 234 CZN16089.1 1589 8160 482 383 I 4 CZN39081.1 1591 8162 636 CZN39046.1 1592 8163 234 CZN38988.1 1593 8164 482 384 I 4 CZI18710.1 1595 8166 636 CZI18679.1 1596 8167 234 CZI18647.1 1597 8168 482 385 I 4 CZL86382.1 1599 8170 636 CZL86343.1 1600 8171 234 CZL86298.1 1601 8172 482 386 I 4 CZM41589.1 1603 8174 636 CZM41618.1 1604 8175 234 CZM41656.1 1605 8176 482 387 I 4 CZM78595.1 1607 8178 636 CZM78547.1 1608 8179 234 CZM78507.1 1609 8180 482 388 I 4 CZM56824.1 1611 8182 636 CZM56782.1 1612 8183 234 CZM56749.1 1613 8184 482 389 I 4 CZM61973.1 1615 8186 636 CZM62010.1 1616 8187 234 CZM62034.1 1617 8188 482 390 I 4 CZM06139.1 1619 8190 636 CZM06106.1 1620 8191 234 CZM06061.1 1621 8192 482 391 I 4 CZM97949.1 1623 8194 636 CZM97974.1 1624 8195 234 CZM97996.1 1625 8196 482 392 I 4 CZN32008.1 1627 8198 636 CZN32037.1 1628 8199 234 CZN32065.1 1629 8200 482 393 I 4 CZN27707.1 1631 8202 636 CZN27733.1 1632 8203 234 CZN27771.1 1633 8204 482 394 I 4 CZM96765.1 1635 8206 636 CZM96741.1 1636 8207 234 CZM96707.1 1637 8208 482 395 I 4 CZN17300.1 1639 8210 636 CZN17329.1 1640 8211 234 CZN17356.1 1641 8212 482 396 I 4 CZN17894.1 1643 8214 636 CZN17862.1 1644 8215 234 CZN17835.1 1645 8216 482 397 I 4 CZN51335.1 1647 8218 636 CZN51299.1 1648 8219 234 CZN51263.1 1649 8220 482 398 I 4 CZN80164.1 1651 8222 636 CZN80114.1 1652 8223 234 CZN80081.1 1653 8224 482 399 I 4 CZN83467.1 1655 8226 636 CZN83507.1 1656 8227 234 CZN83551.1 1657 8228 482 400 I 4 CZN87990.1 1659 8230 636 CZN87946.1 1660 8231 234 CZN87903.1 1661 8232 482 401 I 4 CZN93946.1 1663 8234 636 CZN93993.1 1664 8235 234 CZN94035.1 1665 8236 482 402 I 4 CZO07075.1 1667 8238 636 CZO07110.1 1668 8239 234 CZO07154.1 1669 8240 482 403 I 4 CZO12027.1 1671 8242 636 CZO11987.1 1672 8243 234 CZO11952.1 1673 8244 482 404 I 4 CZO09452.1 1675 8246 636 CZO09406.1 1676 8247 234 CZO09365.1 1677 8248 482 405 I 4 CZN88093.1 1679 8250 636 CZN88057.1 1680 8251 234 CZN88014.1 1681 8252 482 406 I 4 CZO32095.1 1683 8254 636 CZO32135.1 1684 8255 234 CZO32185.1 1685 8256 482 407 I 4 CZO07325.1 1687 8258 636 CZO07290.1 1688 8259 234 CZO07266.1 1689 8260 482 408 I 4 CZO04199.1 1691 8262 636 CZO04172.1 1692 8263 234 CZO04137.1 1693 8264 482 409 I 4 CZN90628.1 1695 8266 636 CZN90659.1 1696 8267 234 CZN90697.1 1697 8268 482 410 I 4 CZP18446.1 1699 8270 636 CZP18413.1 1700 8271 234 CZP18376.1 1701 8272 482 411 I 4 CZP26391.1 1703 8274 636 CZP26289.1 1704 8275 234 CZP26260.1 1705 8276 482 412 I 4 CZP25516.1 1707 8278 636 CZP25483.1 1708 8279 234 CZP25450.1 1709 8280 482 413 I 4 CZN32104.1 1711 8282 636 CZN32073.1 1712 8283 234 CZN32054.1 1713 8284 482 414 I 4 CZO49179.1 1715 8286 636 CZO49222.1 1716 8287 234 CZO49269.1 1717 8288 482 415 I 4 CZO32890.1 1719 8290 636 CZO32855.1 1720 8291 234 CZO32827.1 1721 8292 482 416 I 4 CZO62310.1 1723 8294 636 CZO62353.1 1724 8295 234 CZO62389.1 1725 8296 482 417 I 4 CZO58294.1 1727 8298 636 CZO58318.1 1728 8299 234 CZO58349.1 1729 8300 482 418 I 4 CZO85873.1 1731 8302 636 CZO85828.1 1732 8303 234 CZO85797.1 1733 8304 482 419 I 4 CZP51088.1 1735 8306 636 CZP51125.1 1736 8307 234 CZP51157.1 1737 8308 482 420 I 4 CZO57150.1 1739 8310 636 CZO57187.1 1740 8311 234 CZO57213.1 1741 8312 482 421 I 4 CZO45304.1 1743 8314 636 CZO45268.1 1744 8315 234 CZO45218.1 1745 8316 482 422 I 4 CZO91199.1 1747 8318 636 CZO91233.1 1748 8319 234 CZO91266.1 1749 8320 482 423 I 4 CZN53802.1 1751 8322 636 CZN53843.1 1752 8323 234 CZN53877.1 1753 8324 482 424 I 4 CZN51375.1 1755 8326 636 CZN51423.1 1756 8327 234 CZN51467.1 1757 8328 482 425 I 4 CZO76010.1 1759 8330 636 CZO76045.1 1760 8331 234 CZO76083.1 1761 8332 482 426 I 4 CZR30116.1 1763 8334 636 CZR30113.1 1764 8335 234 CZR30109.1 1765 8336 482 427 I 4 KTD18860.1 1767 8338 634 KTD18861.1 1768 8339 234 KTD18862.1 1769 8340 482 428 I 3 EMU26880.1 1771 8342 686 EMU26879.1 1772 8343 243 EMU26878.1 1773 8344 456 429 I 3 EMT95386.1 1774 8345 686 EMT95385.1 1775 8346 243 EMT95384.1 1776 8347 456 430 I 4 EMT94539.1 1777 8348 686 EMT94538.1 1778 8349 243 EMT94537.1 1779 8350 456 431 I 3 EMU11117.1 1781 8352 686 EMU11116.1 1782 8353 243 EMU11115.1 1783 8354 387 432 I 4 EMU02182.1 1784 8355 686 EMU02181.1 1785 8356 243 EMU02180.1 1786 8357 456 433 I 4 EXB30082.1 1788 8359 686 EXB30083.1 1789 8360 243 EXB30084.1 1790 8361 466 434 I 4 EXB35593.1 1792 8363 686 EXB35594.1 1793 8364 243 EXB35595.1 1794 8365 466 435 I 4 EXB05632.1 1796 8367 686 EXB05631.1 1797 8368 243 EXB05630.1 1798 8369 466 436 I 4 EXB92756.1 1800 8371 686 EXB92873.1 1801 8372 243 EXB92651.1 1802 8373 466 437 I 4 EXB73471.1 1804 8375 686 EXB73472.1 1805 8376 243 EXB73473.1 1806 8377 466 438 I 4 EXE59934.1 1808 8379 686 EXE59933.1 1809 8380 243 EXE59932.1 1810 8381 471 439 I 4 EXE71111.1 1812 8383 688 EXE71113.1 1813 8384 200 EXE71114.1 1814 8385 466 440 I 4 KCX96450.1 1816 8387 686 KCX96449.1 1817 8388 243 KCX96448.1 1818 8389 466 441 I 4 KHO17164.1 1820 8391 686 KHO17163.1 1821 8392 243 KHO17162.1 1822 8393 456 442 I 4 KLT90624.1 1824 8395 686 KLT90642.1 1825 8396 243 KLT90662.1 1826 8397 456 443 I 4 KRI43455.1 1828 8399 688 KRI43456.1 1829 8400 243 KRI43503.1 1830 8401 457 444 I 4 KRJ35152.1 1832 8403 686 KRJ35151.1 1833 8404 243 KRJ35150.1 1834 8405 466 445 I 4 AMN00863.1 1836 8407 686 AMN00864.1 1837 8408 243 AMN00865.1 1838 8409 466 446 I 4 KDB58749.1 1840 8411 662 KDB58628.1 1841 8412 234 KDB58574.1 1842 8413 570 447 I 4 KDD86366.1 1844 8415 669 KDD86358.1 1845 8416 234 KDD86345.1 1846 8417 570 448 I 4 ACV76373.1 1848 8419 675 ACV76374.1 1849 8420 273 ACV76375.1 1850 8421 433 449 I 4 AEI38596.1 1852 8423 675 AEI38595.1 1853 8424 273 AEI38594.1 1854 8425 433 450 I 4 KTJ39354.1 1856 8427 729 KTJ39355.1 1857 8428 246 KTJ39356.1 1858 8429 559 451 I 4 KUQ09076.1 1860 8431 851 KUQ09077.1 1861 8432 245 KUQ09078.1 1862 8433 597 452 I 4 KYN64186.1 1864 8435 678 KYN64185.1 1865 8436 287 KYN64184.1 1866 8437 441 453 I 4 AFP68831.1 1868 8439 729 AFP68830.1 1869 8440 245 AFP68829.1 1870 8441 70 454 I 4 ESS59441.1 1872 8443 729 ESS59449.1 1873 8444 208 ESS59443.1 1874 8445 560 455 I 4 EUL88641.1 1876 8447 711 EUL88642.1 1877 8448 245 EUL88643.1 1878 8449 560 456 I 4 KDF77544.1 1880 8451 711 KDF77543.1 1881 8452 245 KDF77542.1 1882 8453 560 457 I 4 AIX56040.1 1884 8455 729 AIX56041.1 1885 8456 245 AIX56042.1 1886 8457 504 458 I 4 KJW77580.1 1888 8459 851 KJW77579.1 1889 8460 245 KJW77578.1 1890 8461 597 459 I 4 KJX05616.1 1892 8463 851 KJX05615.1 1893 8464 245 KJX05614.1 1894 8465 597 460 I 3 KPS87963.1 1896 8467 245 KPS87962.1 1897 8468 560 461 I 3 KRS24832.1 1899 8470 245 KRS24833.1 1900 8471 560 462 I 4 KUQ03195.1 1902 8473 729 KUQ03194.1 1903 8474 245 KUQ03193.1 1904 8475 560 463 I 4 BAK13750.1 1906 8477 678 BAK13749.1 1907 8478 287 BAK13748.1 1908 8479 441 464 I 4 CCF11168.1 1910 8481 678 CCF11169.1 1911 8482 287 CCF11170.1 1912 8483 356 465 I 4 AFR04653.1 1914 8485 729 AFR04654.1 1915 8486 246 AFR04655.1 1916 8487 560 466 I 4 KHS69362.1 1918 8489 729 KHS69298.1 1919 8490 246 KHS69299.1 1920 8491 560 467 I 4 KHT02545.1 1922 8493 729 KHT02546.1 1923 8494 246 KHT02547.1 1924 8495 560 468 I 4 KHT03993.1 1926 8497 729 KHT03964.1 1927 8498 246 KHT03965.1 1928 8499 560 469 I 4 ABV17222.1 1930 8501 739 ABV17786.1 1931 8502 246 ABV16709.1 1932 8503 567 470 I 4 EIP59422.1 1934 8505 729 EIP59419.1 1935 8506 246 EIP59433.1 1936 8507 483 471 I 4 EIN79902.1 1938 8509 729 EIN79901.1 1939 8510 246 EIN79900.1 1940 8511 504 472 I 4 EKK37352.1 1942 8513 729 EKK37353.1 1943 8514 246 EKK37354.1 1944 8515 504 473 I 4 EKW33219.1 1946 8517 729 EKW33218.1 1947 8518 246 EKW33217.1 1948 8519 402 474 I 4 ELW24564.1 1950 8521 729 ELW24563.1 1951 8522 246 ELW24562.1 1952 8523 483 475 I 4 ELV55444.1 1954 8525 704 ELV55443.1 1955 8526 246 ELV55442.1 1956 8527 391 476 I 4 ELV58670.1 1958 8529 729 ELV58672.1 1959 8530 246 ELV58675.1 1960 8531 483 477 I 4 ELV27737.1 1962 8533 729 ELV27736.1 1963 8534 246 ELV27735.1 1964 8535 504 478 I 4 ELE34850.1 1966 8537 729 ELE34849.1 1967 8538 246 ELE34848.1 1968 8539 560 479 I 4 ELF60007.1 1970 8541 729 ELF60008.1 1971 8542 246 ELF60009.1 1972 8543 560 480 I 4 ENC42752.1 1974 8545 729 ENC42751.1 1975 8546 246 ENC42750.1 1976 8547 504 481 I 4 ENC49345.1 1978 8549 729 ENC49344.1 1979 8550 246 ENC49343.1 1980 8551 504 482 I 4 ENC65372.1 1982 8553 665 ENC65371.1 1983 8554 246 ENC65370.1 1984 8555 504 483 I 4 ENC60227.1 1986 8557 729 ENC60226.1 1987 8558 246 ENC60225.1 1988 8559 504 484 I 4 ENC64694.1 1990 8561 729 ENC64693.1 1991 8562 246 ENC64692.1 1992 8563 504 485 I 4 ENC77391.1 1994 8565 729 ENC77390.1 1995 8566 246 ENC77389.1 1996 8567 504 486 I 4 ENC83691.1 1998 8569 729 ENC83703.1 1999 8570 246 ENC83675.1 2000 8571 504 487 I 4 ENC86715.1 2002 8573 729 ENC86714.1 2003 8574 246 ENC86713.1 2004 8575 504 488 I 4 ENE16651.1 2006 8577 729 ENE16656.1 2007 8578 246 ENE16652.1 2008 8579 560 489 I 4 ENC77075.1 2010 8581 729 ENC77074.1 2011 8582 246 ENC77073.1 2012 8583 504 490 I 4 EOQ56570.1 2014 8585 851 EOQ56569.1 2015 8586 244 EOQ56568.1 2016 8587 595 491 I 4 ERB06047.1 2018 8589 729 ERB06046.1 2019 8590 246 ERB06045.1 2020 8591 560 492 I 4 EQV94532.1 2022 8593 851 EQV94533.1 2023 8594 244 EQV94534.1 2024 8595 595 493 I 4 EQV96721.1 2026 8597 729 EQV96722.1 2027 8598 246 EQV96723.1 2028 8599 560 494 I 4 ERB23472.1 2030 8601 729 ERB23473.1 2031 8602 246 ERB23474.1 2032 8603 560 495 I 4 ERA25533.1 2034 8605 729 ERA25534.1 2035 8606 246 ERA25535.1 2036 8607 560 496 I 4 ERB97875.1 2038 8609 729 ERB97874.1 2039 8610 246 ERB97873.1 2040 8611 483 497 I 4 ERB87466.1 2042 8613 729 ERB87465.1 2043 8614 246 ERB87464.1 2044 8615 483 498 I 4 ERB73282.1 2046 8617 729 ERB73281.1 2047 8618 246 ERB73280.1 2048 8619 483 499 I 4 ERB84327.1 2050 8621 729 ERB84433.1 2051 8622 246 ERB84435.1 2052 8623 483 500 I 4 ERD03133.1 2054 8625 729 ERD03126.1 2055 8626 246 ERD03124.1 2056 8627 504 501 I 3 ERD02933.1 2058 8629 175 ERD02932.1 2059 8630 307 502 I 4 ERD21118.1 2061 8632 729 ERD21117.1 2062 8633 246 ERD21116.1 2063 8634 483 503 I 4 ERD19184.1 2065 8636 729 ERD19183.1 2066 8637 246 ERD19182.1 2067 8638 483 504 I 4 ERD72949.1 2069 8640 729 ERD72951.1 2070 8641 246 ERD72947.1 2071 8642 483 505 I 4 ERD66562.1 2073 8644 729 ERD66561.1 2074 8645 246 ERD66560.1 2075 8646 504 506 I 4 ERD75978.1 2077 8648 729 ERD75977.1 2078 8649 246 ERD75976.1 2079 8650 483 507 I 4 ERD83534.1 2081 8652 729 ERD83533.1 2082 8653 246 ERD83532.1 2083 8654 483 508 I 4 ERD92971.1 2085 8656 729 ERD92973.1 2086 8657 246 ERD92974.1 2087 8658 483 509 I 4 ERD99050.1 2089 8660 729 ERD99051.1 2090 8661 246 ERD99052.1 2091 8662 483 510 I 4 ERD98127.1 2093 8664 729 ERD98126.1 2094 8665 246 ERD98125.1 2095 8666 504 511 I 4 AHM42039.1 2097 8668 729 AHM42040.1 2098 8669 246 AHM42041.1 2099 8670 560 512 I 4 AHM46674.1 2101 8672 729 AHM46675.1 2102 8673 246 AHM46676.1 2103 8674 560 513 I 4 AHM51229.1 2105 8676 729 AHM51230.1 2106 8677 246 AHM51231.1 2107 8678 560 514 I 4 EYD87612.1 2109 8680 698 EYD87621.1 2110 8681 245 EYD87618.1 2111 8682 595 515 I 4 EYW22456.1 2113 8684 729 EYW22455.1 2114 8685 246 EYW22454.1 2115 8686 560 516 I 4 EYW31324.1 2117 8688 729 EYW31323.1 2118 8689 246 EYW31322.1 2119 8690 560 517 I 4 EYV86555.1 2121 8692 729 EYV86554.1 2122 8693 246 EYV86553.1 2123 8694 560 518 I 4 EYW71956.1 2125 8696 729 EYW71957.1 2126 8697 246 EYW71958.1 2127 8698 560 519 I 4 EYW62757.1 2129 8700 729 EYW62758.1 2130 8701 246 EYW62759.1 2131 8702 560 520 I 4 EYW60244.1 2133 8704 729 EYW60243.1 2134 8705 246 EYW60242.1 2135 8706 560 521 I 4 EYW56544.1 2137 8708 729 EYW56543.1 2138 8709 246 EYW56542.1 2139 8710 560 522 I 4 EYW47186.1 2141 8712 729 EYW47185.1 2142 8713 246 EYW47184.1 2143 8714 560 523 I 4 EYW47506.1 2145 8716 729 EYW47505.1 2146 8717 246 EYW47504.1 2147 8718 560 524 I 4 EYW43756.1 2149 8720 729 EYW43757.1 2150 8721 246 EYW43758.1 2151 8722 560 525 I 4 EYW40414.1 2153 8724 729 EYW40415.1 2154 8725 246 EYW40416.1 2155 8726 560 526 I 4 EYW30112.1 2157 8728 729 EYW30111.1 2158 8729 246 EYW30110.1 2159 8730 560 527 I 4 EYY79851.1 2161 8732 729 EYY79852.1 2162 8733 246 EYY79853.1 2163 8734 560 528 I 4 EZB10673.1 2165 8736 729 EZB10672.1 2166 8737 246 EZB10671.1 2167 8738 560 529 I 4 EZE32940.1 2169 8740 729 EZE32941.1 2170 8741 246 EZE32942.1 2171 8742 560 530 I 4 KDZ82638.1 2173 8744 729 KDZ82652.1 2174 8745 246 KDZ82648.1 2175 8746 560 531 I 4 KHG75769.1 2177 8748 729 KHG75768.1 2178 8749 246 KHG75767.1 2179 8750 560 532 I 4 KHG79503.1 2181 8752 729 KHG79502.1 2182 8753 246 KHG79501.1 2183 8754 560 533 I 4 KOZ37432.1 2185 8756 729 KOZ37431.1 2186 8757 246 KOZ37430.1 2187 8758 560 534 I 4 KOZ53466.1 2189 8760 729 KOZ53465.1 2190 8761 246 KOZ53464.1 2191 8762 560 535 I 4 KOZ92709.1 2193 8764 729 KOZ92708.1 2194 8765 246 KOZ92707.1 2195 8766 560 536 I 4 CTV73490.1 2197 8768 729 CTV73519.1 2198 8769 246 CTV73555.1 2199 8770 560 537 I 4 CTY75965.1 2201 8772 729 CTY75938.1 2202 8773 246 CTY75914.1 2203 8774 560 538 I 4 KPH47568.1 2205 8776 729 KPH47567.1 2206 8777 246 KPH47566.1 2207 8778 560 539 I 4 KPH29388.1 2209 8780 729 KPH29389.1 2210 8781 246 KPH29390.1 2211 8782 560 540 I 4 KPO40054.1 2213 8784 729 KPO40055.1 2214 8785 246 KPO40056.1 2215 8786 560 541 I 4 KPP40484.1 2217 8788 729 KPP40485.1 2218 8789 246 KPP40486.1 2219 8790 560 542 I 4 KQI75364.1 2221 8792 729 KQI75363.1 2222 8793 246 KQI75362.1 2223 8794 560 543 I 4 KST33199.1 2225 8796 729 KST33200.1 2226 8797 246 KST33201.1 2227 8798 560 544 I 4 KUV50206.1 2229 8800 729 KUV50205.1 2230 8801 246 KUV50204.1 2231 8802 560 545 I 4 KUT58773.1 2233 8804 729 KUT58774.1 2234 8805 246 KUT58775.1 2235 8806 560 546 I 4 KXL70397.1 2237 8808 729 KXL70398.1 2238 8809 246 KXL70399.1 2239 8810 560 547 I 4 KXM39825.1 2241 8812 729 KXM39826.1 2242 8813 246 KXM39827.1 2243 8814 560 548 I 4 KXM53390.1 2245 8816 729 KXM53391.1 2246 8817 246 KXM53392.1 2247 8818 560 549 I 4 KXN00948.1 2249 8820 729 KXN00949.1 2250 8821 246 KXN00950.1 2251 8822 560 550 I 4 KXQ06776.1 2253 8824 729 KXQ06777.1 2254 8825 246 KXQ06778.1 2255 8826 560 551 I 4 KXQ54353.1 2257 8828 729 KXQ54354.1 2258 8829 246 KXQ54355.1 2259 8830 560 552 I 4 KXR15706.1 2261 8832 729 KXR15705.1 2262 8833 246 KXR15704.1 2263 8834 560 553 I 4 KXQ76400.1 2265 8836 729 KXQ76401.1 2266 8837 246 KXQ76402.1 2267 8838 560 554 I 4 KXQ99883.1 2269 8840 729 KXQ99884.1 2270 8841 246 KXQ99885.1 2271 8842 560 555 I 4 KXR88728.1 2273 8844 729 KXR88729.1 2274 8845 246 KXR88730.1 2275 8846 560 556 I 4 KXR78157.1 2277 8848 729 KXR78156.1 2278 8849 246 KXR78155.1 2279 8850 560 557 I 4 EGC96566.1 2281 8852 716 EGC96565.1 2282 8853 246 EGC96564.1 2283 8854 560 558 I 4 GAB54113.1 2285 8856 729 GAB54114.1 2286 8857 246 GAB54115.1 2287 8858 560 559 I 4 EHM44110.1 2289 8860 729 EHM44109.1 2290 8861 246 EHM44108.1 2291 8862 560 560 I 4 EKB79928.1 2293 8864 729 EKB79929.1 2294 8865 247 EKB79930.1 2295 8866 560 561 I 4 EKB69927.1 2297 8868 729 EKB69926.1 2298 8869 246 EKB69925.1 2299 8870 560 562 I 4 EMH92817.1 2301 8872 711 EMH92791.1 2302 8873 246 EMH92827.1 2303 8874 483 563 I 4 EMH90435.1 2305 8876 729 EMH90438.1 2306 8877 246 EMH90437.1 2307 8878 560 564 I 4 EPA89068.1 2309 8880 701 EPA89053.1 2310 8881 247 EPA89066.1 2311 8882 560 565 I 4 EPO98337.1 2313 8884 701 EPO98352.1 2314 8885 246 EPO98313.1 2315 8886 560 566 I 4 ERN60891.1 2317 8888 711 ERN60892.1 2318 8889 247 ERN60893.1 2319 8890 560 567 I 4 ESM66670.1 2321 8892 729 ESM66669.1 2322 8893 247 ESM66668.1 2323 8894 560 568 I 3 CDL16831.1 2325 8896 497 CDL16832.1 2326 8897 247 CDL16833.1 2327 8898 560 569 I 4 EWE84467.1 2328 8899 729 EWE84468.1 2329 8900 246 EWE84469.1 2330 8901 560 570 I 4 EWE89858.1 2332 8903 729 EWE89859.1 2333 8904 247 EWE89860.1 2334 8905 560 571 I 4 EZQ78636.1 2336 8907 729 EZQ78637.1 2337 8908 247 EZQ78638.1 2338 8909 560 572 I 4 EZR23958.1 2340 8911 729 EZR23959.1 2341 8912 247 EZR23960.1 2342 8913 560 573 I 4 KDK71110.1 2344 8915 729 KDK71111.1 2345 8916 247 KDK71112.1 2346 8917 560 574 I 4 KDL50055.1 2348 8919 729 KDL50056.1 2349 8920 247 KDL50057.1 2350 8921 560 575 I 4 KEF24231.1 2352 8923 729 KEF24232.1 2353 8924 247 KEF24233.1 2354 8925 560 576 I 4 AIG86121.1 2356 8927 711 AIG86120.1 2357 8928 247 AIG86119.1 2358 8929 521 577 I 4 AIT02041.1 2360 8931 729 AIT02042.1 2361 8932 247 AIT02043.1 2362 8933 560 578 I 4 KGK55644.1 2364 8935 729 KGK55905.1 2365 8936 246 KGK55643.1 2366 8937 560 579 I 4 KHF56285.1 2368 8939 729 KHF56286.1 2369 8940 247 KHF56287.1 2370 8941 560 580 I 4 CEO84459.1 2372 8943 729 CEO84460.1 2373 8944 247 CEO84461.1 2374 8945 560 581 I 4 KLZ85284.1 2376 8947 729 KLZ85285.1 2377 8948 247 KLZ85286.1 2378 8949 560 582 I 4 KME72626.1 2380 8951 729 KME72627.1 2381 8952 246 KME72628.1 2382 8953 560 583 I 4 KMG80267.1 2384 8955 729 KMG80268.1 2385 8956 247 KMG80269.1 2386 8957 560 584 I 4 KMH33138.1 2388 8959 729 KMH33139.1 2389 8960 247 KMH33140.1 2390 8961 560 585 I 4 KMH45006.1 2392 8963 729 KMH45007.1 2393 8964 247 KMH45008.1 2394 8965 560 586 I 4 KMH61874.1 2396 8967 729 KMH61875.1 2397 8968 247 KMH61876.1 2398 8969 560 587 I 4 KMH74805.1 2400 8971 729 KMH74806.1 2401 8972 247 KMH74807.1 2402 8973 560 588 I 4 KMH92291.1 2404 8975 729 KMH92292.1 2405 8976 247 KMH92293.1 2406 8977 560 589 I 4 KMH82199.1 2408 8979 729 KMH82198.1 2409 8980 246 KMH82197.1 2410 8981 560 590 I 4 KMI35044.1 2412 8983 729 KMI35043.1 2413 8984 246 KMI35042.1 2414 8985 560 591 I 4 KMJ00751.1 2416 8987 729 KMJ00752.1 2417 8988 247 KMJ00753.1 2418 8989 560 592 I 4 KMX47009.1 2420 8991 729 KMX47010.1 2421 8992 247 KMX47011.1 2422 8993 560 593 I 4 ALH85688.1 2424 8995 729 ALH88375.1 2425 8996 246 ALH85687.1 2426 8997 560 594 I 4 KPR26030.1 2428 8999 729 KPR26088.1 2429 9000 246 KPR26029.1 2430 9001 560 595 I 4 KSW78890.1 2432 9003 851 KSW78889.1 2433 9004 245 KSW78888.1 2434 9005 627 596 I 4 ALP77147.1 2436 9007 729 ALP81045.1 2437 9008 246 ALP77148.1 2438 9009 560 597 I 4 KSZ25786.1 2440 9011 729 KSZ25847.1 2441 9012 246 KSZ25785.1 2442 9013 560 598 I 4 AMA16471.1 2444 9015 729 AMA19153.1 2445 9016 246 AMA16470.1 2446 9017 560 599 I 4 KXO21002.1 2448 9019 729 KXO21035.1 2449 9020 246 KXO21003.1 2450 9021 560 600 I 4 KYL54018.1 2452 9023 729 KYL54030.1 2453 9024 246 KYL54017.1 2454 9025 560 601 I 4 KYM08970.1 2456 9027 729 KYM08978.1 2457 9028 246 KYM08971.1 2458 9029 560 602 I 4 KYL42995.1 2460 9031 729 KYL43003.1 2461 9032 246 KYL42996.1 2462 9033 560 603 I 4 KYL42676.1 2464 9035 729 KYL42684.1 2465 9036 246 KYL42677.1 2466 9037 560 604 I 4 KYL71102.1 2468 9039 729 KYL71114.1 2469 9040 246 KYL71101.1 2470 9041 560 605 I 4 KYL53998.1 2472 9043 729 KYL54010.1 2473 9044 246 KYL53997.1 2474 9045 560 606 I 4 KYM33518.1 2476 9047 729 KYM33585.1 2477 9048 246 KYM33517.1 2478 9049 560 607 I 4 KYL73344.1 2480 9051 729 KYL73352.1 2481 9052 246 KYL73345.1 2482 9053 560 608 I 4 KYL53874.1 2484 9055 729 KYL53882.1 2485 9056 246 KYL53875.1 2486 9057 560 609 I 4 KYM21786.1 2488 9059 729 KYM21794.1 2489 9060 246 KYM21787.1 2490 9061 560 610 I 4 KYM07148.1 2492 9063 729 KYM07160.1 2493 9064 246 KYM07147.1 2494 9065 560 611 I 4 KYM09278.1 2496 9067 729 KYM09290.1 2497 9068 246 KYM09277.1 2498 9069 560 612 I 4 KYL81720.1 2500 9071 729 KYL81728.1 2501 9072 246 KYL81721.1 2502 9073 560 613 I 4 KYL90348.1 2504 9075 729 KYL90356.1 2505 9076 246 KYL90349.1 2506 9077 560 614 I 4 KYM24956.1 2508 9079 729 KYM24969.1 2509 9080 246 KYM24955.1 2510 9081 560 615 I 4 CQJ58381.1 2512 9083 678 CQJ58386.1 2513 9084 287 CQJ58391.1 2514 9085 442 616 I 4 CFV22988.1 2516 9087 678 CFV22985.1 2517 9088 287 CFV22982.1 2518 9089 442 617 I 4 CNI05577.1 2520 9091 678 CNI05611.1 2521 9092 287 CNI05642.1 2522 9093 442 618 I 4 AHV33806.1 2524 9095 686 AHV33807.1 2525 9096 255 AHV33808.1 2526 9097 686 619 I 4 KOG92701.1 2528 9099 686 KOG92700.1 2529 9100 255 KOG92699.1 2530 9101 686 620 I 4 KRW58412.1 2532 9103 682 KRW58411.1 2533 9104 236 KRW58410.1 2534 9105 567 621 I 4 AAF94913.1 2536 9107 706 AAF94912.1 2537 9108 244 AAF94911.1 2538 9109 483 622 I 4 ABQ21745.1 2540 9111 706 ABQ19942.1 2541 9112 244 ABQ20511.1 2542 9113 483 623 I 4 ACP06009.1 2544 9115 706 ACP06008.1 2545 9116 244 ACP06007.1 2546 9117 483 624 I 4 ACP09874.1 2548 9119 706 ACP09873.1 2549 9120 244 ACP09872.1 2550 9121 483 625 I 3 ACQ60772.1 2552 9123 706 ACQ60773.1 2553 9124 244 ACQ60774.1 2554 9125 483 626 I 4 EFH78549.1 2555 9126 706 EFH78550.1 2556 9127 244 EFH78551.1 2557 9128 483 627 I 3 EAZ72428.1 2559 9130 244 EAZ72422.1 2560 9131 483 628 I 4 EAZ78581.1 2562 9133 706 EAZ78546.1 2563 9134 244 EAZ78565.1 2564 9135 483 629 I 4 AET26859.1 2566 9137 706 AET26858.1 2567 9138 244 AET26857.1 2568 9139 483 630 I 4 KNH51113.1 2570 9141 706 KNH51114.1 2571 9142 244 KNH51115.1 2572 9143 483 631 I 4 KNA61358.1 2574 9145 706 KNA61359.1 2575 9146 244 KNA61360.1 2576 9147 483 632 I 4 EEO08431.1 2578 9149 706 EEO08430.1 2579 9150 244 EEO08429.1 2580 9151 483 633 I 4 EEO16534.1 2582 9153 706 EEO16533.1 2583 9154 244 EEO16532.1 2584 9155 483 634 I 4 EEO20559.1 2586 9157 706 EEO20560.1 2587 9158 244 EEO20561.1 2588 9159 483 635 I 4 EET92687.1 2590 9161 706 EET92688.1 2591 9162 244 EET92689.1 2592 9163 483 636 I 4 EEY40708.1 2594 9165 706 EEY40707.1 2595 9166 244 EEY40706.1 2596 9167 483 637 I 4 EEY47283.1 2598 9169 687 EEY47282.1 2599 9170 244 EEY47281.1 2600 9171 483 638 I 4 EGQ97277.1 2602 9173 687 EGQ97276.1 2603 9174 244 EGQ97275.1 2604 9175 483 639 I 4 EGQ98251.1 2606 9177 706 EGQ98250.1 2607 9178 244 EGQ98249.1 2608 9179 483 640 I 4 EGS48435.1 2610 9181 706 EGS48434.1 2611 9182 244 EGS48433.1 2612 9183 483 641 I 4 EGS47646.1 2614 9185 706 EGS47645.1 2615 9186 244 EGS47644.1 2616 9187 483 642 I 4 EGS47807.1 2618 9189 706 EGS47806.1 2619 9190 244 EGS47805.1 2620 9191 483 643 I 4 EGS62508.1 2622 9193 687 EGS62507.1 2623 9194 244 EGS62506.1 2624 9195 483 644 I 4 EGS70775.1 2626 9197 706 EGS70774.1 2627 9198 244 EGS70773.1 2628 9199 483 645 I 4 EHH71591.1 2630 9201 706 EHH71590.1 2631 9202 244 EHH71589.1 2632 9203 483 646 I 4 EHH83258.1 2634 9205 706 EHH83257.1 2635 9206 244 EHH83256.1 2636 9207 483 647 I 4 EHH87250.1 2638 9209 706 EHH87249.1 2639 9210 244 EHH87248.1 2640 9211 483 648 I 4 EHH97392.1 2642 9213 706 EHH97391.1 2643 9214 244 EHH97390.1 2644 9215 483 649 I 4 EHI04662.1 2646 9217 706 EHI05345.1 2647 9218 218 EHI05392.1 2648 9219 483 650 I 4 EHI04020.1 2650 9221 706 EHI04019.1 2651 9222 244 EHI04018.1 2652 9223 214 651 I 4 EHH99557.1 2654 9225 706 EHH99556.1 2655 9226 244 EHH99555.1 2656 9227 472 652 I 4 EHH93201.1 2658 9229 706 EHH93200.1 2659 9230 244 EHH93199.1 2660 9231 483 653 I 4 EHH82145.1 2662 9233 706 EHH82144.1 2663 9234 244 EHH82143.1 2664 9235 483 654 I 4 EHH72367.1 2666 9237 706 EHH72366.1 2667 9238 244 EHH72365.1 2668 9239 483 655 I 4 EHH76760.1 2670 9241 706 EHH76759.1 2671 9242 244 EHH76758.1 2672 9243 483 656 I 4 AFC58582.1 2674 9245 706 AFC58581.1 2675 9246 244 AFC58580.1 2676 9247 483 657 I 4 EJH73152.1 2678 9249 706 EJH73151.1 2679 9250 244 EJH73150.1 2680 9251 483 658 I 4 EJH69792.1 2682 9253 706 EJH69791.1 2683 9254 244 EJH69790.1 2684 9255 483 659 I 4 EJH28006.1 2686 9257 706 EJH28005.1 2687 9258 218 EJH28004.1 2688 9259 483 660 I 4 EJH27267.1 2690 9261 706 EJH27423.1 2691 9262 244 EJH27099.1 2692 9263 483 661 I 4 EJH29363.1 2694 9265 706 EJH29362.1 2695 9266 218 EJH29361.1 2696 9267 451 662 I 4 EJH38300.1 2698 9269 706 EJH38299.1 2699 9270 244 EJH38298.1 2700 9271 483 663 I 4 EJH70293.1 2702 9273 706 EJH70292.1 2703 9274 244 EJH70291.1 2704 9275 483 664 I 4 EJH44250.1 2706 9277 706 EJH44249.1 2707 9278 218 EJH44248.1 2708 9279 483 665 I 4 EJH55113.1 2710 9281 706 EJH55112.1 2711 9282 244 EJH55111.1 2712 9283 483 666 I 4 EJH55194.1 2714 9285 706 EJH55227.1 2715 9286 218 EJH55313.1 2716 9287 483 667 I 4 EJH83358.1 2718 9289 706 EJH83357.1 2719 9290 244 EJH83356.1 2720 9291 483 668 I 4 EJH85693.1 2722 9293 706 EJH85692.1 2723 9294 244 EJH85691.1 2724 9295 483 669 I 4 EJH80829.1 2726 9297 706 EJH80828.1 2727 9298 244 EJH80827.1 2728 9299 483 670 I 4 EJH40245.1 2730 9301 706 EJH40244.1 2731 9302 244 EJH40243.1 2732 9303 483 671 I 4 EKG51169.1 2734 9305 706 EKG51168.1 2735 9306 244 EKG51167.1 2736 9307 483 672 I 4 EKG45548.1 2738 9309 706 EKG45547.1 2739 9310 244 EKG45546.1 2740 9311 483 673 I 4 EKG69364.1 2742 9313 706 EKG69363.1 2743 9314 244 EKG69362.1 2744 9315 483 674 I 4 EKG78207.1 2746 9317 706 EKG78206.1 2747 9318 244 EKG78205.1 2748 9319 483 675 I 4 EKG79527.1 2750 9321 687 EKG79526.1 2751 9322 244 EKG79525.1 2752 9323 483 676 I 4 EKG89065.1 2754 9325 687 EKG89064.1 2755 9326 218 EKG89063.1 2756 9327 483 677 I 4 EKK80943.1 2758 9329 706 EKK80942.1 2759 9330 244 EKK80941.1 2760 9331 483 678 I 4 EKK97423.1 2762 9333 687 EKK97422.1 2763 9334 244 EKK97421.1 2764 9335 483 679 I 4 EKL07579.1 2766 9337 318 EKL07578.1 2767 9338 244 EKL07615.1 2768 9339 265 680 I 4 EKL26689.1 2770 9341 706 EKL26688.1 2771 9342 244 EKL26687.1 2772 9343 483 681 I 4 EKL25950.1 2774 9345 706 EKL25949.1 2775 9346 244 EKL25948.1 2776 9347 483 682 I 4 EKL86050.1 2778 9349 706 EKL86049.1 2779 9350 244 EKL86048.1 2780 9351 483 683 I 4 EKM09914.1 2782 9353 706 EKM09901.1 2783 9354 244 EKM09801.1 2784 9355 483 684 I 4 EKL86446.1 2786 9357 687 EKL86445.1 2787 9358 244 EKL86444.1 2788 9359 483 685 I 4 EKM18416.1 2790 9361 687 EKM18415.1 2791 9362 244 EKM18414.1 2792 9363 483 686 I 4 ELT24501.1 2794 9365 687 ELT24500.1 2795 9366 218 ELT24499.1 2796 9367 451 687 I 4 ELT39817.1 2798 9369 706 ELT39816.1 2799 9370 244 ELT39815.1 2800 9371 483 688 I 4 ELS74167.1 2802 9373 706 ELS74166.1 2803 9374 244 ELS74165.1 2804 9375 483 689 I 4 ELS81598.1 2806 9377 687 ELS81597.1 2807 9378 244 ELS81596.1 2808 9379 483 690 I 4 ELS88997.1 2810 9381 706 ELS88996.1 2811 9382 244 ELS88995.1 2812 9383 483 691 I 4 ELS96628.1 2814 9385 706 ELS96627.1 2815 9386 244 ELS96626.1 2816 9387 483 692 I 4 ELT03894.1 2818 9389 706 ELT03893.1 2819 9390 244 ELT03892.1 2820 9391 483 693 I 4 ELT10277.1 2822 9393 687 ELT10276.1 2823 9394 244 ELT10275.1 2824 9395 483 694 I 4 ELT32501.1 2826 9397 706 ELT32500.1 2827 9398 244 ELT32499.1 2828 9399 483 695 I 4 EMB02074.1 2830 9401 706 EMB02075.1 2831 9402 244 EMB02076.1 2832 9403 483 696 I 4 EMP84497.1 2834 9405 706 EMP84506.1 2835 9406 244 EMP84573.1 2836 9407 483 697 I 4 EMP97717.1 2838 9409 687 EMP97716.1 2839 9410 244 EMP97715.1 2840 9411 483 698 I 4 EMP95638.1 2842 9413 706 EMP95637.1 2843 9414 244 EMP95636.1 2844 9415 483 699 I 4 EMQ03274.1 2846 9417 706 EMQ03273.1 2847 9418 244 EMQ03272.1 2848 9419 483 700 I 4 EMQ04749.1 2850 9421 687 EMQ04748.1 2851 9422 244 EMQ04747.1 2852 9423 483 701 I 4 EMQ11843.1 2854 9425 687 EMQ11842.1 2855 9426 244 EMQ11841.1 2856 9427 483 702 I 4 EMQ11497.1 2858 9429 706 EMQ11496.1 2859 9430 244 EMQ11495.1 2860 9431 483 703 I 4 EMQ16257.1 2862 9433 687 EMQ16256.1 2863 9434 244 EMQ16255.1 2864 9435 483 704 I 4 EMQ22003.1 2866 9437 706 EMQ22002.1 2867 9438 244 EMQ22001.1 2868 9439 483 705 I 4 EMQ27293.1 2870 9441 706 EMQ27292.1 2871 9442 244 EMQ27291.1 2872 9443 483 706 I 4 EMQ26220.1 2874 9445 706 EMQ26219.1 2875 9446 244 EMQ26218.1 2876 9447 483 707 I 4 EMQ32320.1 2878 9449 706 EMQ32319.1 2879 9450 244 EMQ32318.1 2880 9451 483 708 I 4 EMQ37900.1 2882 9453 706 EMQ37899.1 2883 9454 218 EMQ37898.1 2884 9455 483 709 I 4 EMQ51395.1 2886 9457 706 EMQ51394.1 2887 9458 244 EMQ51393.1 2888 9459 483 710 I 4 EMQ53996.1 2890 9461 706 EMQ53995.1 2891 9462 244 EMQ53994.1 2892 9463 483 711 I 4 EMQ39198.1 2894 9465 687 EMQ39197.1 2895 9466 244 EMQ39196.1 2896 9467 483 712 I 4 EMQ68296.1 2898 9469 687 EMQ68295.1 2899 9470 244 EMQ68294.1 2900 9471 483 713 I 4 EMQ62929.1 2902 9473 687 EMQ62928.1 2903 9474 244 EMQ62927.1 2904 9475 483 714 I 4 EMQ43439.1 2906 9477 706 EMQ43438.1 2907 9478 244 EMQ43437.1 2908 9479 483 715 I 4 EMQ47715.1 2910 9481 706 EMQ47714.1 2911 9482 244 EMQ47713.1 2912 9483 483 716 I 4 EWM32711.1 2914 9485 706 EWM32710.1 2915 9486 244 EWM32709.1 2916 9487 483 717 I 4 KEA49020.1 2918 9489 706 KEA49019.1 2919 9490 244 KEA49018.1 2920 9491 483 718 I 3 KEH05440.1 2922 9493 706 KEH05439.1 2923 9494 244 KEH05438.1 2924 9495 483 719 I 4 KEH80152.1 2925 9496 706 KEH80153.1 2926 9497 244 KEH80154.1 2927 9498 483 720 I 4 KEH82623.1 2929 9500 706 KEH82624.1 2930 9501 244 KEH82625.1 2931 9502 483 721 I 3 KFE04003.1 2933 9504 569 KFE04002.1 2934 9505 244 KFE04000.1 2935 9506 483 722 I 3 KFE07491.1 2936 9507 569 KFE07489.1 2937 9508 244 KFE07492.1 2938 9509 483 723 I 4 KFE03707.1 2939 9510 687 KFE03742.1 2940 9511 244 KFE03727.1 2941 9512 483 724 I 4 KFE20316.1 2943 9514 687 KFE20291.1 2944 9515 244 KFE20317.1 2945 9516 483 725 I 4 KFZ34215.1 2947 9518 706 KFZ34214.1 2948 9519 244 KFZ34213.1 2949 9520 483 726 I 4 AIT29756.1 2951 9522 706 AIT29755.1 2952 9523 244 AIT29754.1 2953 9524 483 727 I 4 KHE18844.1 2955 9526 706 KHE18843.1 2956 9527 244 KHE18842.1 2957 9528 483 728 I 4 KHE21916.1 2959 9530 706 KHE21917.1 2960 9531 244 KHE21918.1 2961 9532 483 729 I 4 BAP03192.1 2963 9534 706 BAP03191.1 2964 9535 244 BAP03190.1 2965 9536 483 730 I 4 KJD16371.1 2967 9538 706 KJD16372.1 2968 9539 244 KJD16373.1 2969 9540 483 731 I 4 KJJ52420.1 2971 9542 706 KJJ52419.1 2972 9543 244 KJJ52418.1 2973 9544 483 732 I 4 KJJ54929.1 2975 9546 706 KJJ54928.1 2976 9547 244 KJJ54927.1 2977 9548 483 733 I 4 KJR76013.1 2979 9550 706 KJR76012.1 2980 9551 244 KJR76011.1 2981 9552 483 734 I 4 KJS92997.1 2983 9554 706 KJS92996.1 2984 9555 244 KJS92995.1 2985 9556 483 735 I 4 AKA00225.1 2987 9558 706 AKA00224.1 2988 9559 244 AKA00223.1 2989 9560 483 736 I 4 KJW14527.1 2991 9562 706 KJW14526.1 2992 9563 244 KJW14525.1 2993 9564 483 737 I 4 KJX83381.1 2995 9566 706 KJX83382.1 2996 9567 244 KJX83383.1 2997 9568 483 738 I 4 KKP13603.1 2999 9570 687 KKP13602.1 3000 9571 218 KKP13601.1 3001 9572 483 739 I 4 KKP11543.1 3003 9574 706 KKP11542.1 3004 9575 244 KKP11541.1 3005 9576 472 740 I 4 KKP10397.1 3007 9578 706 KKP10398.1 3008 9579 218 KKP10399.1 3009 9580 472 741 I 4 AKO75286.1 3011 9582 706 AKO75285.1 3012 9583 244 AKO75284.1 3013 9584 483 742 I 3 CSC37237.1 3015 9586 244 CSC37265.1 3016 9587 492 743 I 4 CRZ83881.1 3018 9589 687 CRZ83843.1 3019 9590 244 CRZ83797.1 3020 9591 166 744 I 4 CSE02212.1 3022 9593 687 CSE02198.1 3023 9594 244 CSE02182.1 3024 9595 483 745 I 4 CRZ49596.1 3026 9597 687 CRZ49592.1 3027 9598 244 CRZ49589.1 3028 9599 483 746 I 4 CSC16355.1 3030 9601 687 CSC16391.1 3031 9602 244 CSC16431.1 3032 9603 483 747 I 4 CSB69082.1 3034 9605 584 CSB69144.1 3035 9606 244 CSB69175.1 3036 9607 483 748 I 4 CSA28373.1 3038 9609 687 CSA28411.1 3039 9610 244 CSA28460.1 3040 9611 483 749 I 4 CSB84212.1 3042 9613 683 CSB84179.1 3043 9614 244 CSB84126.1 3044 9615 166 750 I 4 CSB63035.1 3046 9617 706 CSB63063.1 3047 9618 244 CSB63093.1 3048 9619 483 751 I 4 CSA19108.1 3050 9621 687 CSA19143.1 3051 9622 244 CSA19174.1 3052 9623 483 752 I 4 CSD58035.1 3054 9625 687 CSD58068.1 3055 9626 244 CSD58113.1 3056 9627 483 753 I 3 CSB77636.1 3058 9629 706 CSB77620.1 3059 9630 244 CSB77591.1 3060 9631 265 754 I 4 CSB47699.1 3061 9632 706 CSB47717.1 3062 9633 244 CSB47737.1 3063 9634 483 755 I 4 CSA30864.1 3065 9636 687 CSA30887.1 3066 9637 244 CSA30916.1 3067 9638 483 756 I 4 CSB56036.1 3069 9640 687 CSB56072.1 3070 9641 244 CSB56096.1 3071 9642 483 757 I 4 CRZ98430.1 3073 9644 687 CRZ98405.1 3074 9645 244 CRZ98377.1 3075 9646 483 758 I 4 CSA01223.1 3077 9648 521 CSA01278.1 3078 9649 244 CSA01305.1 3079 9650 174 759 I 4 CSB97601.1 3081 9652 687 CSB97580.1 3082 9653 244 CSB97551.1 3083 9654 307 760 I 4 CSC01831.1 3085 9656 687 CSC01791.1 3086 9657 244 CSC01763.1 3087 9658 483 761 I 4 CRZ46095.1 3089 9660 706 CRZ46097.1 3090 9661 244 CRZ46104.1 3091 9662 93 762 I 4 CSA07930.1 3093 9664 687 CSA07897.1 3094 9665 244 CSA07877.1 3095 9666 483 763 I 4 CSC23820.1 3097 9668 687 CSC23781.1 3098 9669 244 CSC23752.1 3099 9670 483 764 I 3 CSB05145.1 3101 9672 687 CSB05176.1 3102 9673 244 CSB05201.1 3103 9674 483 765 I 4 CSE01515.1 3104 9675 687 CSE01529.1 3105 9676 244 CSE01548.1 3106 9677 483 766 I 3 CSA08484.1 3108 9679 687 CSA08454.1 3109 9680 244 767 I 4 CRZ45176.1 3111 9682 687 CRZ45172.1 3112 9683 244 CRZ45168.1 3113 9684 483 768 I 4 CSA06942.1 3115 9686 687 CSA06965.1 3116 9687 244 CSA06996.1 3117 9688 483 769 I 4 CSA08863.1 3119 9690 687 CSA08826.1 3120 9691 244 CSA08791.1 3121 9692 483 770 I 4 CSA15692.1 3123 9694 687 CSA15667.1 3124 9695 244 CSA15641.1 3125 9696 265 771 I 4 CSA74473.1 3127 9698 706 CSA74503.1 3128 9699 244 CSA74529.1 3129 9700 166 772 I 3 CSB88670.1 3131 9702 244 CSB88619.1 3132 9703 333 773 I 4 CSC80217.1 3134 9705 687 CSC80194.1 3135 9706 244 CSC80172.1 3136 9707 483 774 I 4 CSB83682.1 3138 9709 687 CSB83710.1 3139 9710 244 CSB83780.1 3140 9711 483 775 I 3 CSB56503.1 3142 9713 244 CSB56524.1 3143 9714 483 776 I 4 CSC85490.1 3145 9716 687 CSC85465.1 3146 9717 244 CSC85445.1 3147 9718 483 777 I 4 CSB86358.1 3149 9720 706 CSB86328.1 3150 9721 244 CSB86302.1 3151 9722 265 778 I 4 CSD13052.1 3153 9724 687 CSD13079.1 3154 9725 244 CSD13105.1 3155 9726 483 779 I 4 CSD79475.1 3157 9728 687 CSD79446.1 3158 9729 244 CSD79419.1 3159 9730 483 780 I 4 CSD86966.1 3161 9732 687 CSD86944.1 3162 9733 244 CSD86920.1 3163 9734 483 781 I 4 CSA39609.1 3165 9736 687 CSA39643.1 3166 9737 244 CSA39681.1 3167 9738 483 782 I 4 CSC76746.1 3169 9740 687 CSC76722.1 3170 9741 244 CSC76697.1 3171 9742 483 783 I 4 CSA42744.1 3173 9744 687 CSA42770.1 3174 9745 244 CSA42798.1 3175 9746 483 784 I 4 CSA52054.1 3177 9748 687 CSA52090.1 3178 9749 244 CSA52135.1 3179 9750 483 785 I 4 CSD31909.1 3181 9752 687 CSD31884.1 3182 9753 244 CSD31863.1 3183 9754 483 786 I 4 CSD17795.1 3185 9756 687 CSD17820.1 3186 9757 244 CSD17844.1 3187 9758 483 787 I 4 CSD38760.1 3189 9760 687 CSD38739.1 3190 9761 244 CSD38713.1 3191 9762 483 788 I 4 CSA26418.1 3193 9764 687 CSA26383.1 3194 9765 244 CSA26354.1 3195 9766 483 789 I 4 CSA45804.1 3197 9768 706 CSA45841.1 3198 9769 244 CSA45878.1 3199 9770 483 790 I 4 CSD96243.1 3201 9772 687 CSD96273.1 3202 9773 244 CSD96300.1 3203 9774 483 791 I 4 CSA54123.1 3205 9776 687 CSA54080.1 3206 9777 244 CSA54039.1 3207 9778 483 792 I 3 CSC37722.1 3209 9780 443 CSC37773.1 3210 9781 244 793 I 4 CSA88061.1 3212 9783 443 CSA88093.1 3213 9784 244 CSA88149.1 3214 9785 350 794 I 4 CSA15119.1 3216 9787 706 CSA15151.1 3217 9788 244 CSA15173.1 3218 9789 107 795 I 3 CSC98411.1 3220 9791 218 CSC98455.1 3221 9792 199 796 I 4 CRZ48558.1 3223 9794 687 CRZ48557.1 3224 9795 244 CRZ48553.1 3225 9796 307 797 I 3 CSB25008.1 3227 9798 244 CSB25021.1 3228 9799 360 798 I 4 CSD98728.1 3230 9801 687 CSD98712.1 3231 9802 244 CSD98693.1 3232 9803 483 799 I 3 CSA36905.1 3234 9805 244 CSA36950.1 3235 9806 231 800 I 3 CSA30693.1 3237 9808 706 CSA30747.1 3238 9809 244 CSA30798.1 3239 9810 483 801 I 4 CSD70399.1 3240 9811 687 CSD70430.1 3241 9812 244 CSD70457.1 3242 9813 483 802 I 3 CSD13971.1 3244 9815 244 CSD13924.1 3245 9816 483 803 I 4 CSD31814.1 3247 9818 687 CSD31841.1 3248 9819 244 CSD31862.1 3249 9820 483 804 I 4 CSE18852.1 3251 9822 687 CSE18836.1 3252 9823 244 CSE18821.1 3253 9824 483 805 I 4 CSD93125.1 3255 9826 687 CSD93151.1 3256 9827 244 CSD93175.1 3257 9828 483 806 I 4 CSA21244.1 3259 9830 687 CSA21199.1 3260 9831 244 CSA21173.1 3261 9832 483 807 I 4 CSA44863.1 3263 9834 715 CSA44812.1 3264 9835 244 CSA44762.1 3265 9836 265 808 I 4 CSD30711.1 3267 9838 687 CSD30681.1 3268 9839 244 CSD30657.1 3269 9840 483 809 I 4 CSD92444.1 3271 9842 687 CSD92423.1 3272 9843 244 CSD92407.1 3273 9844 483 810 I 4 CSD99240.1 3275 9846 687 CSD99267.1 3276 9847 244 CSD99291.1 3277 9848 483 811 I 4 CSA23088.1 3279 9850 687 CSA23044.1 3280 9851 244 CSA23002.1 3281 9852 483 812 I 4 CSA49073.1 3283 9854 706 CSA49123.1 3284 9855 244 CSA49171.1 3285 9856 483 813 I 4 CSC63545.1 3287 9858 478 CSC63565.1 3288 9859 244 CSC63589.1 3289 9860 134 814 I 4 CRZ49242.1 3291 9862 687 CRZ49246.1 3292 9863 244 CRZ49252.1 3293 9864 483 815 I 4 CSC03222.1 3295 9866 706 CSC03177.1 3296 9867 244 CSC03135.1 3297 9868 483 816 I 4 CSD87325.1 3299 9870 687 CSD87301.1 3300 9871 244 CSD87274.1 3301 9872 483 817 I 4 CSD21169.1 3303 9874 687 CSD21190.1 3304 9875 244 CSD21226.1 3305 9876 483 818 I 3 CSC95321.1 3307 9878 687 CSC95342.1 3308 9879 244 CSC95365.1 3309 9880 492 819 I 4 CSA26886.1 3310 9881 687 CSA26825.1 3311 9882 244 CSA26777.1 3312 9883 166 820 I 4 CSB50406.1 3314 9885 687 CSB50386.1 3315 9886 244 CSB50354.1 3316 9887 483 821 I 4 CSB24741.1 3318 9889 599 CSB24761.1 3319 9890 244 CSB24790.1 3320 9891 166 822 I 4 CSB68001.1 3322 9893 687 CSB68025.1 3323 9894 244 CSB68050.1 3324 9895 483 823 I 4 CSB16341.1 3326 9897 706 CSB16315.1 3327 9898 244 CSB16293.1 3328 9899 483 824 I 4 CRZ89319.1 3330 9901 687 CRZ89282.1 3331 9902 244 CRZ89245.1 3332 9903 483 825 I 4 CSD99897.1 3334 9905 687 CSD99912.1 3335 9906 244 CSD99928.1 3336 9907 483 826 I 4 CSA40795.1 3338 9909 687 CSA40831.1 3339 9910 244 CSA40854.1 3340 9911 483 827 I 4 CSC19419.1 3342 9913 687 CSC19396.1 3343 9914 244 CSC19370.1 3344 9915 483 828 I 4 CSD27220.1 3346 9917 687 CSD27192.1 3347 9918 244 CSD27166.1 3348 9919 483 829 I 4 CSA25112.1 3350 9921 687 CSA25084.1 3351 9922 244 CSA25048.1 3352 9923 483 830 I 4 CSD33112.1 3354 9925 531 CSD33079.1 3355 9926 244 CSD33047.1 3356 9927 483 831 I 4 CSD26002.1 3358 9929 687 CSD25975.1 3359 9930 244 CSD25966.1 3360 9931 483 832 I 4 CSD38021.1 3362 9933 687 CSD37998.1 3363 9934 244 CSD37970.1 3364 9935 483 833 I 4 CSD14687.1 3366 9937 687 CSD14704.1 3367 9938 244 CSD14728.1 3368 9939 483 834 I 3 CSA18679.1 3370 9941 687 CSA18640.1 3371 9942 244 CSA18601.1 3372 9943 483 835 I 4 CSD46955.1 3373 9944 687 CSD46995.1 3374 9945 244 CSD47023.1 3375 9946 483 836 I 4 CRZ80473.1 3377 9948 716 CRZ80451.1 3378 9949 244 CRZ80418.1 3379 9950 483 837 I 4 CSC19266.1 3381 9952 687 CSC19248.1 3382 9953 244 CSC19228.1 3383 9954 483 838 I 4 CSA24075.1 3385 9956 687 CSA24040.1 3386 9957 244 CSA24013.1 3387 9958 483 839 I 4 CSA07992.1 3389 9960 687 CSA08026.1 3390 9961 244 CSA08045.1 3391 9962 483 840 I 4 CSB55819.1 3393 9964 578 CSB55765.1 3394 9965 244 CSB55741.1 3395 9966 483 841 I 4 CSA25748.1 3397 9968 687 CSA25793.1 3398 9969 244 CSA25829.1 3399 9970 483 842 I 4 CSD34768.1 3401 9972 687 CSD34731.1 3402 9973 244 CSD34701.1 3403 9974 483 843 I 4 CSC58199.1 3405 9976 571 CSC58139.1 3406 9977 244 CSC58133.1 3407 9978 483 844 I 4 CSA23793.1 3409 9980 706 CSA23829.1 3410 9981 244 CSA23867.1 3411 9982 483 845 I 4 CSB25867.1 3413 9984 605 CSB25856.1 3414 9985 244 CSB25844.1 3415 9986 307 846 I 4 CSD08489.1 3417 9988 687 CSD08470.1 3418 9989 244 CSD08448.1 3419 9990 483 847 I 4 CSD25549.1 3421 9992 687 CSD25570.1 3422 9993 244 CSD25590.1 3423 9994 483 848 I 4 CSD28514.1 3425 9996 687 CSD28543.1 3426 9997 244 CSD28572.1 3427 9998 483 849 I 4 CSA45340.1 3429 10000 687 CSA45303.1 3430 10001 244 CSA45263.1 3431 10002 483 850 I 4 CSD82595.1 3433 10004 687 CSD82566.1 3434 10005 244 CSD82541.1 3435 10006 483 851 I 4 CSC20854.1 3437 10008 687 CSC20817.1 3438 10009 244 CSC20782.1 3439 10010 483 852 I 4 CSC43426.1 3441 10012 712 CSC43406.1 3442 10013 244 CSC43375.1 3443 10014 483 853 I 4 CSC06846.1 3445 10016 706 CSC06871.1 3446 10017 244 CSC06894.1 3447 10018 483 854 I 4 CSB50546.1 3449 10020 706 CSB50514.1 3450 10021 244 CSB50503.1 3451 10022 483 855 I 4 CSE01188.1 3453 10024 687 CSE01165.1 3454 10025 244 CSE01149.1 3455 10026 483 856 I 4 CSB99258.1 3457 10028 687 CSB99303.1 3458 10029 244 CSB99336.1 3459 10030 483 857 I 3 KOY92951.1 3461 10032 244 KOY92950.1 3462 10033 483 858 I 4 KOY92344.1 3464 10035 706 KOY92343.1 3465 10036 244 KOY92342.1 3466 10037 483 859 I 4 KOY97240.1 3468 10039 706 KOY97239.1 3469 10040 244 KOY97238.1 3470 10041 483 860 I 4 KOZ01032.1 3472 10043 706 KOZ01031.1 3473 10044 244 KOZ01030.1 3474 10045 483 861 I 4 KPA03327.1 3476 10047 706 KPA03326.1 3477 10048 244 KPA03325.1 3478 10049 483 862 I 4 ALJ63816.1 3480 10051 706 ALJ63817.1 3481 10052 244 ALJ63818.1 3482 10053 483 863 I 4 KTL56325.1 3484 10055 706 KTL56324.1 3485 10056 244 KTL56323.1 3486 10057 483 864 I 3 KUO35497.1 3488 10059 244 KUO35496.1 3489 10060 483 865 I 3 KUP87193.1 3491 10062 706 KUP87194.1 3492 10063 244 KUP87195.1 3493 10064 483 866 I 4 KUP86906.1 3494 10065 706 KUP86907.1 3495 10066 244 KUP86908.1 3496 10067 483 867 I 4 KUY44285.1 3498 10069 706 KUY44286.1 3499 10070 244 KUY44287.1 3500 10071 483 868 I 4 KVI44905.1 3502 10073 706 KVI44904.1 3503 10074 244 KVI44903.1 3504 10075 483 869 I 4 KWW48033.1 3506 10077 706 KWW48034.1 3507 10078 244 KWW48035.1 3508 10079 483 870 I 4 EIG23809.1 3510 10081 728 EIG23861.1 3511 10082 263 EIG23836.1 3512 10083 507 871 I 4 KGQ46272.1 3514 10085 677 KGQ46273.1 3515 10086 298 KGQ46274.1 3516 10087 479 872 I 4 KGQ51096.1 3518 10089 677 KGQ51097.1 3519 10090 298 KGQ51098.1 3520 10091 479 873 I 4 KGQ65037.1 3522 10093 677 KGQ65036.1 3523 10094 298 KGQ65035.1 3524 10095 479 874 I 4 ACX76639.1 3526 10097 584 ACX76638.1 3527 10098 243 ACX76637.1 3528 10099 455 875 I 4 ADL24842.1 3530 10101 584 ADL27028.1 3531 10102 243 ADL26078.1 3532 10103 455 876 I 4 EEO43106.1 3534 10105 535 EEO43107.2 3535 10106 207 EEO43108.1 3536 10107 402 877 I 4 EPC08247.1 3538 10109 535 EPC08246.1 3539 10110 207 EPC08245.1 3540 10111 402 878 I 4 ERT42791.1 3542 10113 583 ERT42790.1 3543 10114 207 ERT42789.1 3544 10115 402 879 I 4 KGE62641.1 3546 10117 583 KGE62642.1 3547 10118 232 KGE62643.1 3548 10119 401 880 I 4 EFE87094.1 3550 10121 583 EFE87095.1 3551 10122 232 EFE87096.1 3552 10123 402 881 I 4 ABM29947.1 3554 10125 677 ABM29948.1 3555 10126 259 ABM29949.1 3556 10127 455 882 I 4 ADB47624.1 3558 10129 616 ADB47623.1 3559 10130 235 ADB47622.1 3560 10131 467 883 I 4 ADE85046.1 3562 10133 681 ADE85047.1 3563 10134 334 ADE85048.1 3564 10135 444 884 I 4 ETD02074.1 3566 10137 681 ETD02075.1 3567 10138 334 ETD02172.1 3568 10139 431 885 I 4 ETD86671.1 3570 10141 681 ETD86670.1 3571 10142 334 ETD86702.1 3572 10143 444 886 I 4 ETD77748.1 3574 10145 681 ETD77749.1 3575 10146 334 ETD77862.1 3576 10147 431 887 I 4 ETE54106.1 3578 10149 681 ETE54107.1 3579 10150 334 ETE54205.1 3580 10151 431 888 I 3 KKI99610.1 3582 10153 673 KKI99609.1 3583 10154 248 KKI99608.1 3584 10155 488 889 I 4 KFI23089.1 3585 10156 701 KFI23090.1 3586 10157 250 KFI23091.1 3587 10158 476 890 I 4 KMY56660.1 3589 10160 648 KMY56661.1 3590 10161 223 KMY56662.1 3591 10162 426 891 I 4 KMY64903.1 3593 10164 648 KMY64904.1 3594 10165 223 KMY64905.1 3595 10166 426 892 I 4 KYD35338.1 3597 10168 648 KYD35337.1 3598 10169 223 KYD35336.1 3599 10170 426 893 I 4 GAD13408.1 3601 10172 460 GAD13407.1 3602 10173 211 GAD13406.1 3603 10174 426 894 I 3 EMT39963.1 3605 10176 540 EMT40032.1 3606 10177 230 895 I 3 EGO65557.1 3608 10179 743 EGO65558.1 3609 10180 232 EGO65559.1 3610 10181 476 896 I 3 EKF49049.1 3611 10182 411 EKF49048.1 3612 10183 218 897 I 4 BAL95138.1 3614 10185 667 BAL95139.1 3615 10186 208 BAL95140.1 3616 10187 565 898 I 4 KTC75261.1 3618 10189 636 KTC75262.1 3619 10190 234 KTC75263.1 3620 10191 482 899 I 4 EFF49971.1 3622 10193 667 EFF49970.1 3623 10194 231 EFF49969.1 3624 10195 616 900 I 4 ABU75897.1 3626 10197 729 ABU75896.1 3627 10198 246 ABU75895.1 3628 10199 562 901 I 3 EGL73326.1 3630 10201 246 EGL73325.1 3631 10202 523 902 I 3 CCK08186.1 3633 10204 259 CCK08187.1 3634 10205 246 CCK08188.1 3635 10206 562 903 I 4 CCK02754.1 3636 10207 656 CCK02755.1 3637 10208 246 CCK02756.1 3638 10209 523 904 I 4 CCO48375.1 3640 10211 706 CCO48376.1 3641 10212 244 CCO48377.1 3642 10213 482 905 I 4 CCK80596.1 3644 10215 641 CCK80597.1 3645 10216 250 CCK80598.1 3646 10217 485 906 I 4 KGD34430.1 3648 10219 667 KGD34483.1 3649 10220 234 KGD34420.1 3650 10221 573 907 I 4 KGS74771.1 3652 10223 670 KGS74845.1 3653 10224 241 KGS74775.1 3654 10225 546 908 I 4 KGW09067.1 3656 10227 667 KGW09406.1 3657 10228 239 KGW09097.1 3658 10229 454 909 I 4 KGX47863.1 3660 10231 555 KGX47852.1 3661 10232 234 KGX47883.1 3662 10233 478 910 I 4 KGX39518.1 3664 10235 667 KGX39502.1 3665 10236 234 KGX39650.1 3666 10237 573 911 I 4 CPH56696.1 3668 10239 780 CPH56659.1 3669 10240 241 CPH56628.1 3670 10241 605 912 I 4 KSB52477.1 3672 10243 729 KSB52476.1 3673 10244 246 KSB52475.1 3674 10245 560 913 I 3 AEF17805.1 3676 10247 540 AEF17804.1 3677 10248 230 914 I 4 ENW17902.1 3679 10250 146 ENW17901.1 3680 10251 243 ENW17900.1 3681 10252 474 915 I 4 ABO66647.1 3683 10254 626 ABO66648.1 3684 10255 223 ABO66649.1 3685 10256 426 916 I 3 ACI99727.1 3687 10258 763 ACI99728.1 3688 10259 314 ACI99729.1 3689 10260 484 917 I 4 ACS21194.1 3690 10261 667 ACS21193.1 3691 10262 234 ACS21192.1 3692 10263 574 918 I 3 EIC29071.1 3694 10265 605 EIC29072.1 3695 10266 231 EIC29073.1 3696 10267 527 919 I 4 EET81943.1 3697 10268 686 EET81942.1 3698 10269 243 EET81941.1 3699 10270 471 920 I 4 ENU31377.1 3701 10272 300 ENU31376.1 3702 10273 243 ENU31375.1 3703 10274 456 921 I 4 ALA59739.1 3705 10276 656 ALA59738.1 3706 10277 240 ALA59737.1 3707 10278 548 922 I 4 AGB41055.1 3709 10280 652 AGB41056.1 3710 10281 228 AGB41057.1 3711 10282 417 923 I 4 AEI93759.1 3713 10284 462 AEI93760.1 3714 10285 323 AEI93761.1 3715 10286 437 924 I 4 CCU78667.1 3717 10288 654 CCU78668.1 3718 10289 262 CCU78669.1 3719 10290 398 925 I 4 ERG17892.1 3721 10292 691 ERG17893.1 3722 10293 247 ERG17894.1 3723 10294 480 926 I 4 ALF60586.1 3725 10296 688 ALF60587.1 3726 10297 243 ALF60588.1 3727 10298 457 927 I 3 AEM78245.1 3729 10300 540 AEM78246.1 3730 10301 230 928 I 4 EFV93687.1 3732 10303 690 EFV93688.1 3733 10304 236 EFV93689.1 3734 10305 565 929 I 4 KRI14520.1 3736 10307 688 KRI14521.1 3737 10308 243 KRI14522.1 3738 10309 457 930 I 4 AEJ38288.1 3740 10311 647 AEJ38287.1 3741 10312 210 AEJ38286.1 3742 10313 398 931 I 4 AEW03630.1 3744 10315 647 AEW03629.1 3745 10316 229 AEW03628.1 3746 10317 398 932 I 4 KFX14697.1 3748 10319 729 KFX14696.1 3749 10320 245 KFX14695.1 3750 10321 560 933 I 4 KKW93255.1 3752 10323 641 KKW93256.1 3753 10324 242 KKW94108.1 3754 10325 426 934 I 4 KVX03061.1 3756 10327 723 KVX03060.1 3757 10328 252 KVX03059.1 3758 10329 565 935 I 4 KJM54480.1 3760 10331 851 KJM54479.1 3761 10332 245 KJM54478.1 3762 10333 597 936 I 4 KLF88330.1 3764 10335 729 KLF88329.1 3765 10336 246 KLF88328.1 3766 10337 560 937 I 4 KLG16016.1 3768 10339 729 KLG16015.1 3769 10340 246 KLG16014.1 3770 10341 560 938 I 4 KLP43536.1 3772 10343 729 KLP43535.1 3773 10344 246 KLP43534.1 3774 10345 560 939 I 4 KTK05050.1 3776 10347 851 KTK05049.1 3777 10348 245 KTK05048.1 3778 10349 597 940 I 4 KTJ30242.1 3780 10351 729 KTJ30243.1 3781 10352 246 KTJ30244.1 3782 10353 560 941 I 4 KTI23428.1 3784 10355 851 KTI23427.1 3785 10356 245 KTI23426.1 3786 10357 597 942 I 4 AKL12331.1 3788 10359 729 AKL12332.1 3789 10360 246 AKL12333.1 3790 10361 560 943 I 3 AFZ43911.1 3792 10363 746 AFZ43910.1 3793 10364 236 AFZ43909.1 3794 10365 507 944 I 3 ACK72258.1 3795 10366 456 ACK72256.1 3796 10367 222 ACK72255.1 3797 10368 501 945 I 4 AJG24952.1 3798 10369 667 AJG24951.1 3799 10370 53 AJG24950.1 3800 10371 556 946 I 3 EAW43011.1 3802 10373 656 EAW43010.1 3803 10374 216 EAW43009.1 3804 10375 464 947 I 3 AHJ30056.1 3805 10376 635 AHJ30057.1 3806 10377 216 AHJ30058.1 3807 10378 464 948 I 4 AJE15429.1 3808 10379 731 AJE15428.1 3809 10380 245 AJE15427.1 3810 10381 558 949 I 3 CEJ44798.1 3812 10383 627 CEJ44797.1 3813 10384 214 CEJ44796.1 3814 10385 459 950 I 4 EHO11882.1 3815 10386 509 EHO11881.1 3816 10387 238 EHO11883.1 3817 10388 475 951 I 4 CAY72975.1 3819 10390 729 CAY72976.1 3820 10391 245 CAY72978.1 3821 10392 566 952 I 4 CAX54367.1 3823 10394 729 CAX54368.1 3824 10395 245 CAX54369.1 3825 10396 566 953 I 4 AGA90547.1 3827 10398 586 AGA90548.1 3828 10399 283 AGA90549.1 3829 10400 425 954 I 4 CUH46419.1 3831 10402 681 CUH46420.1 3832 10403 372 CUH46421.1 3833 10404 449 955 I 4 AMO80628.1 3835 10406 729 AMO80629.1 3836 10407 247 AMO80630.1 3837 10408 563 956 I 4 AGP47378.1 3839 10410 572 AGP47379.1 3840 10411 263 AGP47380.1 3841 10412 443 957 I 4 KIN78156.1 3843 10414 680 KIN78155.1 3844 10415 367 KIN78154.1 3845 10416 738 958 I 4 AMS40143.1 3847 10418 651 AMS40142.1 3848 10419 302 AMS40141.1 3849 10420 461 959 I 4 ABK50003.1 3851 10422 696 ABK50004.1 3852 10423 243 ABK50005.1 3853 10424 475 960 I 4 CAP40556.1 3855 10426 680 CAP40555.1 3856 10427 237 CAP40554.1 3857 10428 558 961 I 4 ERI29961.1 3859 10430 670 ERI29880.1 3860 10431 241 ERI29995.1 3861 10432 546 962 I 4 EPZ86961.1 3863 10434 670 EPZ86615.1 3864 10435 241 EPZ86681.1 3865 10436 546 963 I 4 KKI79474.1 3867 10438 670 KKI79473.1 3868 10439 241 KKI79472.1 3869 10440 546 964 I 4 KVD94073.1 3871 10442 674 KVD94072.1 3872 10443 236 KVD94070.1 3873 10444 261 965 I 4 KVT83333.1 3875 10446 667 KVT83334.1 3876 10447 234 KVT83335.1 3877 10448 576 966 I 4 KVW62590.1 3879 10450 667 KVW62589.1 3880 10451 234 KVW62588.1 3881 10452 576 967 I 3 AFZ37310.1 3883 10454 781 AFZ37311.1 3884 10455 264 AFZ37312.1 3885 10456 502 968 I 3 ADD01957.1 3886 10457 540 ADD01958.1 3887 10458 230 969 I 4 AEG43650.1 3889 10460 541 AEG43649.1 3890 10461 277 AEG43648.1 3891 10462 514 970 I 4 ACY51399.1 3893 10464 706 ACY51400.1 3894 10465 244 ACY51401.1 3895 10466 483 971 I 4 EDN58079.1 3897 10468 706 EDN58080.1 3898 10469 244 EDN58081.1 3899 10470 483 972 I 4 AIR88232.1 3901 10472 730 AIR88231.1 3902 10473 247 AIR88230.1 3903 10474 542 973 I 4 ABC30363.1 3905 10476 666 ABC30364.1 3906 10477 263 ABC30365.1 3907 10478 493 974 I 4 ALV90959.1 3909 10480 729 ALV90958.1 3910 10481 245 ALV90957.1 3911 10482 560 975 I 4 EDL49433.1 3913 10484 641 EDL49432.1 3914 10485 242 EDL49431.1 3915 10486 429 976 I 4 CAQ68802.1 3917 10488 663 CAQ68801.1 3918 10489 252 CAQ68800.1 3919 10490 554 977 I 4 BAH37227.1 3921 10492 669 BAH37228.1 3922 10493 230 BAH37229.1 3923 10494 459 978 I 4 KGU86620.1 3925 10496 730 KGU86621.1 3926 10497 247 KGU86622.1 3927 10498 542 979 I 3 AFE04995.1 3929 10500 644 AFE04997.1 3930 10501 464 980 I 4 EHJ60585.1 3932 10503 641 EHJ60586.1 3933 10504 242 EHJ60587.1 3934 10505 458 981 I 4 AIT79637.1 3936 10507 641 AIT79636.1 3937 10508 242 AIT79635.1 3938 10509 429 982 I 3 CAV18535.1 3940 10511 688 CAV18536.1 3941 10512 218 CAV18537.1 3942 10513 625 983 I 4 ADP10192.1 3943 10514 729 ADP10191.1 3944 10515 245 ADP10190.1 3945 10516 566 984 I 4 ABM39550.1 3947 10518 816 ABM39549.1 3948 10519 235 ABM39548.1 3949 10520 602 985 I 4 EIL89340.1 3951 10522 631 EIL89341.1 3952 10523 236 EIL89342.1 3953 10524 559 986 I 4 GAC31728.1 3955 10526 692 GAC31729.1 3956 10527 243 GAC31730.1 3957 10528 475 987 I 3 AFZ12767.1 3959 10530 726 AFZ12766.1 3960 10531 239 AFZ12765.1 3961 10532 474 988 I 4 KFK00375.1 3962 10533 729 KFK00374.1 3963 10534 246 KFK00373.1 3964 10535 560 989 I 4 CDT04278.1 3966 10537 704 CDT04296.1 3967 10538 243 CDT04305.1 3968 10539 483 990 I 4 CDT11699.1 3970 10541 704 CDT11706.1 3971 10542 243 CDT11714.1 3972 10543 483 991 I 4 KXV35460.1 3974 10545 672 KXV35459.1 3975 10546 287 KXV35477.1 3976 10547 425 992 I 4 EAT06411.1 3978 10549 507 EAT06417.1 3979 10550 272 EAT06418.1 3980 10551 486 993 I 4 BAQ44674.1 3982 10553 679 BAQ44675.1 3983 10554 310 BAQ44676.1 3984 10555 438 994 I 4 CCE22484.1 3986 10557 642 CCE22485.1 3987 10558 252 CCE22486.1 3988 10559 498 995 I 4 CEG51215.1 3990 10561 781 CEG51216.1 3991 10562 254 CEG51217.1 3992 10563 754 996 I 4 EJI89226.1 3994 10565 729 EJI89227.1 3995 10566 247 EJI89228.1 3996 10567 567 997 I 4 KDE37034.1 3998 10569 729 KDE37033.1 3999 10570 247 KDE37032.1 4000 10571 569 998 I 3 AFZ51166.1 4002 10573 481 AFZ51165.1 4003 10574 240 AFZ51164.1 4004 10575 501 999 I 3 GAE46380.1 4005 10576 629 GAE46381.1 4006 10577 223 1000 I 4 EAQ47302.1 4008 10579 680 EAQ47301.1 4009 10580 367 EAQ47300.1 4010 10581 741 1001 I 4 EDP59419.1 4012 10583 706 EDP59418.1 4013 10584 244 EDP59417.1 4014 10585 483 1002 I 4 CUH52012.1 4016 10587 486 CUH52011.1 4017 10588 358 CUH52010.1 4018 10589 436 1003 I 4 CVK01182.1 4020 10591 844 CVK01173.1 4021 10592 240 CVK01163.1 4022 10593 658 1004 I 4 ABE74734.1 4024 10595 688 ABE74735.1 4025 10596 243 ABE74736.1 4026 10597 473 1005 I 3 CCW17770.1 4028 10599 549 CCW17772.1 4029 10600 468 1006 I 3 ABM05098.1 4031 10602 454 ABM05096.1 4032 10603 220 ABM05095.1 4033 10604 541 1007 I 4 AFU46476.1 4034 10605 727 AFU46477.1 4035 10606 255 AFU46478.1 4036 10607 646 1008 I 4 EZI30545.1 4038 10609 730 EZI30546.1 4039 10610 247 EZI30547.1 4040 10611 542 1009 I 3 ADL55134.1 4042 10613 648 ADL55135.1 4043 10614 238 ADL55136.1 4044 10615 527 1010 I 4 GAA77183.1 4045 10616 692 GAA77182.1 4046 10617 243 GAA77181.1 4047 10618 476 1011 I 4 AMK16850.1 4049 10620 660 AMK16851.1 4050 10621 236 AMK16852.1 4051 10622 560 1012 I 3 ADQ06821.1 4053 10624 539 ADQ06820.1 4054 10625 241 1013 I 4 EFN90481.1 4056 10627 460 EFN90483.1 4057 10628 230 EFN90478.1 4058 10629 459 1014 I 3 KXB76242.1 4060 10631 230 KXB76241.1 4061 10632 459 1015 I 4 EPR18405.1 4063 10634 669 EPR18406.1 4064 10635 242 EPR18407.1 4065 10636 466 1016 I 4 KMO18101.1 4067 10638 907 KMO18102.1 4068 10639 260 KMO18103.1 4069 10640 465 1017 I 3 KER36348.1 4071 10642 641 KER36349.1 4072 10643 242 KER36350.1 4073 10644 466 1018 I 4 ACT17070.1 4074 10645 666 ACT17071.1 4075 10646 239 ACT17072.1 4076 10647 556 1019 I 4 KMW37149.1 4078 10649 667 KMW37148.1 4079 10650 231 KMW37147.1 4080 10651 616 1020 I 3 CUB00791.1 4082 10653 322 CUB00793.1 4083 10654 437 1021 I 4 ADJ28737.1 4085 10656 700 ADJ28736.1 4086 10657 250 ADJ28735.1 4087 10658 477 1022 I 3 AJR24432.1 4089 10660 236 AJR24433.1 4090 10661 560 1023 I 4 AJR25287.1 4092 10663 657 AJR25288.1 4093 10664 236 AJR25289.1 4094 10665 557 1024 I 4 EHO63928.1 4096 10667 584 EHO63911.1 4097 10668 222 EHO63912.1 4098 10669 452 1025 I 4 KVM95917.1 4100 10671 674 KVM95916.1 4101 10672 236 KVM95915.1 4102 10673 475 1026 I 4 EDY06977.1 4104 10675 648 EDY06976.1 4105 10676 223 EDY06975.1 4106 10677 426 1027 I 3 AMD01537.1 4108 10679 656 AMD01536.1 4109 10680 254 AMD01535.1 4110 10681 570 1028 I 4 EHR42621.1 4111 10682 745 EHR42622.1 4112 10683 263 EHR42623.1 4113 10684 495 1029 I 4 EHD22817.1 4115 10686 729 EHD22818.1 4116 10687 246 EHD22819.1 4117 10688 560 1030 I 4 CRI66748.1 4119 10690 660 CRI66749.1 4120 10691 242 CRI66750.1 4121 10692 576 1031 I 4 EFY05649.1 4123 10694 706 EFY05648.1 4124 10695 244 EFY05647.1 4125 10696 461 1032 I 4 EKN30947.1 4127 10698 667 EKN30946.1 4128 10699 231 EKN30945.1 4129 10700 616 1033 I 4 KPL51797.1 4131 10702 671 KPL51798.1 4132 10703 288 KPL51799.1 4133 10704 467 1034 I 3 AMN39053.1 4135 10706 688 AMN39055.1 4136 10707 481 1035 I 4 KMV29900.1 4138 10709 605 KMV29899.1 4139 10710 261 KMV29898.1 4140 10711 468 1036 I 4 CCA91254.1 4142 10713 612 CCA91255.1 4143 10714 258 CCA91256.1 4144 10715 433 1037 I 4 CCA92387.1 4146 10717 641 CCA92388.1 4147 10718 242 CCA92389.1 4148 10719 458 1038 I 4 ADE38421.1 4150 10721 656 ADE38422.1 4151 10722 270 ADE38423.1 4152 10723 462 1039 I 4 EPR27897.1 4154 10725 648 EPR27898.1 4155 10726 230 EPR27899.1 4156 10727 426 1040 I 4 KYC33906.1 4158 10729 657 KYC33907.1 4159 10730 236 KYC33908.1 4160 10731 557 1041 I 3 ADW69601.1 4162 10733 650 ADW69602.1 4163 10734 227 ADW69603.1 4164 10735 445 1042 I 4 EPR43451.1 4165 10736 571 EPR43452.1 4166 10737 255 EPR43453.1 4167 10738 454 1043 I 3 ESU31843.1 4169 10740 629 ESU31842.1 4170 10741 223 1044 I 4 KHJ69401.1 4172 10743 729 KHJ69400.1 4173 10744 245 KHJ69399.1 4174 10745 560 1045 I 4 ERO56341.1 4176 10747 729 ERO56340.1 4177 10748 247 ERO56339.1 4178 10749 561 1046 I 4 KHN63194.1 4180 10751 729 KHN63195.1 4181 10752 247 KHN63196.1 4182 10753 561 1047 I 3 KKD39674.1 4184 10755 733 KKD39673.1 4185 10756 238 KMW70735.1 4186 10757 384 1048 I 4 CUB04084.1 4187 10758 621 CUB04083.1 4188 10759 252 CUB04082.1 4189 10760 571 1049 I 4 EJM18419.1 4191 10762 730 EJM18418.1 4192 10763 247 EJM18417.1 4193 10764 541 1050 I 4 EUB73632.1 4195 10766 771 EUB73631.1 4196 10767 247 EUB73630.1 4197 10768 652 1051 I 3 EIL96364.1 4199 10770 625 EIL96363.1 4200 10771 241 EIL96362.1 4201 10772 523 1052 I 4 EOU44970.1 4202 10773 851 EOU44971.1 4203 10774 244 EOU44972.1 4204 10775 595 1053 I 4 ELC22340.1 4206 10777 851 ELC22341.1 4207 10778 245 ELC22342.1 4208 10779 595 1054 I 4 EOU82992.1 4210 10781 851 EOU82993.1 4211 10782 244 EOU82994.1 4212 10783 595 1055 I 4 KXU33094.1 4214 10785 657 KXU33093.1 4215 10786 236 KXU33092.1 4216 10787 550 1056 I 4 EOV44196.1 4218 10789 851 EOV44197.1 4219 10790 245 EOV44198.1 4220 10791 595 1057 I 4 EOQ55527.1 4222 10793 729 EOQ55528.1 4223 10794 247 EOQ55529.1 4224 10795 560 1058 I 4 EOV91297.1 4226 10797 851 EOV91298.1 4227 10798 245 EOV91299.1 4228 10799 595 1059 I 4 EOW68209.1 4230 10801 851 EOW68210.1 4231 10802 245 EOW68211.1 4232 10803 595 1060 I 4 AFY17876.1 4234 10805 800 AFY17877.1 4235 10806 247 AFY17878.1 4236 10807 720 1061 I 4 KHK57292.1 4238 10809 685 KHK57293.1 4239 10810 236 KHK57294.1 4240 10811 558 1062 I 4 ENW78275.1 4242 10813 686 ENW78276.1 4243 10814 243 ENW78277.1 4244 10815 462 1063 I 4 EME68216.1 4246 10817 827 EME68215.1 4247 10818 251 EME68214.1 4248 10819 457 1064 I 4 CDE94534.1 4250 10821 616 CDE94533.1 4251 10822 235 CDE94532.1 4252 10823 467 1065 I 4 CDA50128.1 4254 10825 657 CDA50129.1 4255 10826 228 CDA50130.1 4256 10827 437 1066 I 4 ESQ90328.1 4258 10829 648 ESQ90329.1 4259 10830 251 ESQ90330.1 4260 10831 455 1067 I 4 ESQ74514.1 4262 10833 662 ESQ74515.1 4263 10834 267 ESQ74516.1 4264 10835 464 1068 I 4 AII86799.1 4266 10837 616 AII86800.1 4267 10838 431 AII86801.1 4268 10839 675 1069 I 4 KPQ04149.1 4270 10841 692 KPQ04148.1 4271 10842 243 KPQ04147.1 4272 10843 475 1070 I 4 CUS49192.1 4274 10845 692 CUS49191.1 4275 10846 243 CUS49190.1 4276 10847 475 1071 I 4 ESN27965.1 4278 10849 711 ESN27964.1 4279 10850 245 ESN27963.1 4280 10851 560 1072 I 4 EPJ56201.1 4282 10853 678 EPJ56200.1 4283 10854 350 EPJ56199.1 4284 10855 552 1073 I 4 EQA99142.1 4286 10857 652 EQA99141.1 4287 10858 250 EQA99140.1 4288 10859 476 1074 I 4 KMS61577.1 4290 10861 652 KMS61417.1 4291 10862 250 KMS61578.1 4292 10863 476 1075 I 4 AGT31732.2 4294 10865 650 AGT31733.1 4295 10866 223 AGT31734.1 4296 10867 426 1076 I 4 AIY66372.1 4298 10869 675 AIY65737.1 4299 10870 247 AIY65736.1 4300 10871 480 1077 I 4 KXW55388.1 4302 10873 653 KXW55387.1 4303 10874 249 KXW55386.1 4304 10875 493 1078 I 4 AKU92633.1 4306 10877 529 AKU92632.1 4307 10878 238 AKU92631.1 4308 10879 470 1079 I 3 ERS81916.1 4310 10881 678 ERS81915.1 4311 10882 263 ERS81914.1 4312 10883 246 1080 I 3 ERS83845.1 4313 10884 666 ERS83848.1 4314 10885 578 1081 I 4 KXU87120.1 4316 10887 897 KXU87121.1 4317 10888 241 KXU87122.1 4318 10889 597 1082 I 4 KLU37751.1 4320 10891 667 KLU37750.1 4321 10892 234 KLU37749.1 4322 10893 578 1083 I 4 EUC70211.1 4324 10895 632 EUC70007.1 4325 10896 251 EUC70008.1 4326 10897 508 1084 I 4 EXI82583.1 4328 10899 679 EXI82584.1 4329 10900 236 EXI82585.1 4330 10901 573 1085 I 4 KAK42943.1 4332 10903 785 KAK42944.1 4333 10904 252 KAK42945.1 4334 10905 618 1086 I 4 BAO84440.1 4336 10907 644 BAO84441.1 4337 10908 236 BAO84442.1 4338 10909 609 1087 I 3 CQR46611.1 4340 10911 629 CQR46610.1 4341 10912 236 1088 I 4 BAP87805.1 4343 10914 653 BAP87806.1 4344 10915 237 BAP87807.1 4345 10916 212 1089 I 4 KDP87791.1 4347 10918 663 KDP87792.1 4348 10919 252 KDP87793.1 4349 10920 599 1090 I 4 KQB03823.1 4351 10922 706 KQB03824.1 4352 10923 244 KQB03825.1 4353 10924 483 1091 I 4 KQA99550.1 4355 10926 706 KQA99549.1 4356 10927 244 KQA99548.1 4357 10928 483 1092 I 4 KEY85736.1 4359 10930 730 KEY85735.1 4360 10931 247 KEY85734.1 4361 10932 542 1093 I 4 GAK41823.1 4363 10934 616 GAK41824.1 4364 10935 258 GAK41825.1 4365 10936 424 1094 I 4 KVV58314.1 4367 10938 674 KVV58315.1 4368 10939 236 KVV58316.1 4369 10940 475 1095 I 4 KVX28279.1 4371 10942 674 KVX28280.1 4372 10943 236 KVX28281.1 4373 10944 564 1096 I 4 KVZ97547.1 4375 10946 674 KVZ97546.1 4376 10947 236 KVZ97545.1 4377 10948 475 1097 I 4 AJY51021.1 4379 10950 711 AJY51020.1 4380 10951 254 AJY51019.1 4381 10952 530 1098 I 4 CDX33063.1 4383 10954 723 CDX33066.1 4384 10955 302 CDX33069.1 4385 10956 460 1099 I 4 CDX43778.1 4387 10958 723 CDX43775.1 4388 10959 302 CDX43772.1 4389 10960 460 1100 I 3 KJS80656.1 4391 10962 700 KJS80657.1 4392 10963 242 1101 I 4 KGD90262.1 4394 10965 669 KGD90263.1 4395 10966 234 KGD90264.1 4396 10967 570 1102 I 3 KGJ90758.1 4398 10969 595 KGJ90759.1 4399 10970 261 KGJ90760.1 4400 10971 390 1103 I 4 KOC90088.1 4401 10972 729 KOC90087.1 4402 10973 246 KOC90086.1 4403 10974 560 1104 I 4 KOC94084.1 4405 10976 729 KOC94083.1 4406 10977 246 KOC94082.1 4407 10978 560 1105 I 4 KHF78369.1 4409 10980 687 KHF78368.1 4410 10981 243 KHF78367.1 4411 10982 472 1106 I 4 KQB52476.1 4413 10984 730 KQB52477.1 4414 10985 247 KQB52478.1 4415 10986 549 1107 I 3 AJP47988.1 4417 10988 236 AJP47987.1 4418 10989 553 1108 I 4 KIN89757.1 4420 10991 666 KIN89556.1 4421 10992 235 KIN89775.1 4422 10993 595 1109 I 4 ALQ39732.1 4424 10995 583 ALQ39733.1 4425 10996 232 ALQ39734.1 4426 10997 402 1110 I 4 KIQ83921.1 4428 10999 737 KIQ83920.1 4429 11000 247 KIQ83919.1 4430 11001 586 1111 I 4 KRP95697.1 4432 11003 730 KRP95696.1 4433 11004 247 KRP95695.1 4434 11005 542 1112 I 3 BAQ62924.1 4436 11007 772 BAQ62925.1 4437 11008 222 BAQ62926.1 4438 11009 503 1113 I 3 KJS80968.1 4439 11010 698 KJS80967.1 4440 11011 254 KJS80966.1 4441 11012 752 1114 I 4 KJM39259.1 4442 11013 729 KJM39258.1 4443 11014 245 KJM39257.1 4444 11015 504 1115 I 4 KJJ99150.1 4446 11017 685 KJJ99540.1 4447 11018 235 KJJ99149.1 4448 11019 558 1116 I 4 KJQ91383.1 4450 11021 706 KJQ91384.1 4451 11022 244 KJQ91385.1 4452 11023 483 1117 I 4 KJQ87529.1 4454 11025 706 KJQ87530.1 4455 11026 244 KJQ87531.1 4456 11027 483 1118 I 4 AKI01763.1 4458 11029 720 AKI01764.1 4459 11030 302 AKI01765.1 4460 11031 473 1119 I 3 KMP10823.1 4462 11033 578 KMP10824.1 4463 11034 471 1120 I 4 KJS25182.1 4465 11036 781 KJS25181.1 4466 11037 254 KJS25180.1 4467 11038 754 1121 I 3 KJS49376.1 4469 11040 700 KJS49375.1 4470 11041 242 1122 I 4 KLG11560.1 4472 11043 851 KLG11561.1 4473 11044 245 KLG11562.1 4474 11045 597 1123 I 4 KLP25065.1 4476 11047 729 KLP25066.1 4477 11048 245 KLP25067.1 4478 11049 560 1124 I 4 KLG16385.1 4480 11051 729 KLG16384.1 4481 11052 245 KLG16383.1 4482 11053 504 1125 I 4 AKQ40863.1 4484 11055 641 AKQ40862.1 4485 11056 242 AKQ43011.1 4486 11057 440 1126 I 4 KLR33911.1 4488 11059 729 KLR33910.1 4489 11060 245 KLR33909.1 4490 11061 560 1127 I 4 KLQ90823.1 4492 11063 729 KLQ90824.1 4493 11064 245 KLQ90825.1 4494 11065 560 1128 I 4 KYO07696.1 4496 11067 851 KYO07695.1 4497 11068 245 KYO07694.1 4498 11069 597 1129 I 3 KYO16913.1 4500 11071 245 KYO16912.1 4501 11072 560 1130 I 4 KLP47189.1 4503 11074 729 KLP47188.1 4504 11075 245 KLP47187.1 4505 11076 560 1131 I 4 ALE53304.1 4507 11078 674 ALE53303.1 4508 11079 236 ALE53302.1 4509 11080 564 1132 I 4 KQB93617.1 4511 11082 648 KQB93618.1 4512 11083 223 KQB93619.1 4513 11084 426 1133 I 4 AMN49377.1 4515 11086 688 AMN49378.1 4516 11087 243 AMN49379.1 4517 11088 473 1134 I 3 ALA18584.1 4519 11090 715 ALA18585.1 4520 11091 306 ALA18586.1 4521 11092 432 1135 I 4 ALK96263.1 4522 11093 667 ALK96264.1 4523 11094 234 ALK96265.1 4524 11095 578 1136 I 4 CUJ89804.1 4526 11097 486 CUJ89796.1 4527 11098 358 CUJ89790.1 4528 11099 436 1137 I 4 CUJ83670.1 4530 11101 686 CUJ83678.1 4531 11102 371 CUJ83691.1 4532 11103 447 1138 I 4 CUQ65734.1 4534 11105 605 CUQ65733.1 4535 11106 244 CUQ65732.1 4536 11107 479 1139 I 4 KVV05820.1 4538 11109 730 KVV05821.1 4539 11110 247 KVV05822.1 4540 11111 551 1140 I 4 KVV04346.1 4542 11113 730 KVV04345.1 4543 11114 247 KVV04344.1 4544 11115 551 1141 I 4 KUO77795.1 4546 11117 697 KUO77796.1 4547 11118 242 KUO77797.1 4548 11119 399 1142 I 4 KQM30744.1 4550 11121 483 KQM30743.1 4551 11122 310 KQM30742.1 4552 11123 443 1143 I 4 KQM97531.1 4554 11125 747 KQM97532.1 4555 11126 227 KQM97534.1 4556 11127 409 1144 I 4 KQN80963.1 4558 11129 483 KQN80962.1 4559 11130 310 KQN80961.1 4560 11131 443 1145 I 4 KQQ29436.1 4562 11133 679 KQQ29437.1 4563 11134 296 KQQ29438.1 4564 11135 438 1146 I 4 KQR49970.1 4566 11137 685 KQR49971.1 4567 11138 236 KQR49972.1 4568 11139 445 1147 I 3 KQQ86297.1 4570 11141 679 KQQ86070.1 4571 11142 332 KQQ86071.1 4572 11143 437 1148 I 4 KQS63846.1 4573 11144 677 KQS63847.1 4574 11145 326 KQS63848.1 4575 11146 437 1149 I 4 KQV35757.1 4577 11148 677 KQV35758.1 4578 11149 326 KQV35917.1 4579 11150 437 1150 I 4 KQY95048.1 4581 11152 650 KQY95047.1 4582 11153 249 KQY95046.1 4583 11154 354 1151 I 4 KRD25370.1 4585 11156 725 KRD25371.1 4586 11157 255 KRD25372.1 4587 11158 645 1152 I 4 KRD25864.1 4589 11160 677 KRD25865.1 4590 11161 326 KRD26022.1 4591 11162 437 1153 I 4 KQV20173.1 4593 11164 730 KQV20174.1 4594 11165 247 KQV20175.1 4595 11166 542 1154 I 4 KQX34369.1 4597 11168 654 KQX34248.1 4598 11169 311 KQX34249.1 4599 11170 434 1155 I 4 KRE22550.1 4601 11172 651 KRE22551.1 4602 11173 306 KRE22552.1 4603 11174 455 1156 I 4 KRA26262.1 4605 11176 730 KRA26261.1 4606 11177 247 KRA26260.1 4607 11178 542 1157 I 4 KRA28534.1 4609 11180 650 KRA28533.1 4610 11181 249 KRA28532.1 4611 11182 461 1158 I 4 KRB49806.1 4613 11184 699 KRB49805.1 4614 11185 314 KRB49804.1 4615 11186 470 1159 I 4 KQC46104.1 4617 11188 648 KQC46105.1 4618 11189 223 KQC46106.1 4619 11190 426 1160 I 4 KWV49702.1 4621 11192 676 KWV49701.1 4622 11193 332 KWV49700.1 4623 11194 435 1161 I 4 KUI99562.1 4625 11196 548 KUI99563.1 4626 11197 244 KUI99564.1 4627 11198 484 1162 I 4 KTG21218.1 4629 11200 723 KTG21219.1 4630 11201 252 KTG21220.1 4631 11202 564 1163 I 4 CVJ90686.1 4633 11204 903 CVJ90696.1 4634 11205 236 CVJ90705.1 4635 11206 594 1164 I 4 CVK24348.1 4637 11208 780 CVK24349.1 4638 11209 241 CVK24350.1 4639 11210 630 1165 I 4 CVK22610.1 4641 11212 724 CVK22609.1 4642 11213 252 CVK22608.1 4643 11214 546 1166 I 4 CVK27724.1 4645 11216 785 CVK27723.1 4646 11217 252 CVK27722.1 4647 11218 556 1167 I 4 CVJ14788.1 4649 11220 767 CVJ14762.1 4650 11221 241 CVJ14745.1 4651 11222 746 1168 I 4 CVJ96983.1 4653 11224 844 CVJ96975.1 4654 11225 240 CVJ96968.1 4655 11226 658 1169 I 4 KXS40897.1 4657 11228 657 KXS40896.1 4658 11229 245 KXS40895.1 4659 11230 391 1170 I 4 KXW57569.1 4661 11232 646 KXW57568.1 4662 11233 237 KXW57567.1 4663 11234 499 1171 I 4 EJO46330.1 4665 11236 711 EJO46331.1 4666 11237 246 EJO46332.1 4667 11238 560 1172 I 4 EPY95209.1 4669 11240 851 EPY95208.1 4670 11241 245 EPY95207.1 4671 11242 597 1173 I 4 EUL64248.1 4673 11244 711 EUL64247.1 4674 11245 246 EUL64246.1 4675 11246 560 1174 I 4 AMQ20312.1 4677 11248 648 AMQ20313.1 4678 11249 223 AMQ20314.1 4679 11250 426 1175 II 3 ADB42634.1 4681 11252 472 ADB42633.1 4682 11253 222 1176 II 3 EIA72761.1 4684 11255 432 EIA72760.1 4685 11256 235 1177 II 3 EIA87029.1 4687 11258 432 EIA87028.1 4688 11259 235 1178 II 3 EIA94951.1 4690 11261 432 EIA94950.1 4691 11262 235 1179 II 3 EIA95449.1 4693 11264 432 EIA95448.1 4694 11265 235 1180 II 3 KQH60908.1 4696 11267 432 KQH60907.1 4697 11268 235 1181 II 3 KQI25488.1 4699 11270 432 KQI25489.1 4700 11271 235 1182 II 3 KQI25380.1 4702 11273 432 KQI25381.1 4703 11274 235 1183 II 3 KRS58891.1 4705 11276 432 KRS58892.1 4706 11277 235 1184 II 3 KRS89289.1 4708 11279 432 KRS89290.1 4709 11280 234 1185 II 3 KEA44658.1 4711 11282 480 KEA44659.1 4712 11283 239 1186 II 3 ALX13353.1 4714 11285 427 ALX11999.1 4715 11286 230 1187 II 3 AMB80664.1 4717 11288 547 AMB81837.1 4718 11289 240 1188 II 3 CZG58504.1 4720 11291 498 CZG58452.1 4721 11292 230 1189 II 3 CZH63906.1 4723 11294 498 CZH63878.1 4724 11295 230 1190 II 3 CZG92946.1 4726 11297 498 CZG92895.1 4727 11298 230 1191 II 3 CZI24914.1 4729 11300 498 CZI24954.1 4730 11301 230 1192 II 3 CZI29146.1 4732 11303 498 CZI29107.1 4733 11304 230 1193 II 3 CZH75364.1 4735 11306 498 CZH75396.1 4736 11307 230 1194 II 3 CZI28533.1 4738 11309 498 CZI28487.1 4739 11310 230 1195 II 3 CZQ90586.1 4741 11312 498 CZQ90595.1 4742 11313 230 1196 II 3 EEZ95918.1 4744 11315 455 EEZ95917.1 4745 11316 230 1197 II 3 ADG61932.1 4747 11318 465 ADG61931.1 4748 11319 228 1198 II 3 EGE12537.1 4750 11321 465 EGE12536.1 4751 11322 204 1199 II 3 EGE10945.1 4753 11324 465 EGE10944.1 4754 11325 204 1200 II 3 EGE11787.1 4756 11327 465 EGE11786.1 4757 11328 204 1201 II 3 EGE15771.1 4759 11330 342 EGE15772.1 4760 11331 204 1202 II 3 EGE17285.1 4762 11333 465 EGE17284.1 4763 11334 204 1203 II 3 EGE18525.1 4765 11336 465 EGE18524.1 4766 11337 204 1204 II 3 EGE26180.1 4768 11339 378 EGE26179.1 4769 11340 204 1205 II 3 EGE24867.1 4771 11342 465 EGE24866.1 4772 11343 204 1206 II 3 EKF83143.1 4774 11345 465 EKF83142.1 4775 11346 214 1207 II 3 AIT43974.1 4777 11348 378 AIT43973.1 4778 11349 238 1208 II 3 ALD78152.1 4780 11351 498 ALD78151.1 4781 11352 235 1209 II 3 KJI56238.1 4783 11354 550 KJI56239.1 4784 11355 235 1210 II 3 KKW50395.1 4786 11357 180 KKW50401.1 4787 11358 226 1211 II 3 KFF70136.1 4789 11360 459 KFF70137.1 4790 11361 244 1212 II 3 KHS98349.1 4792 11363 459 KHS98348.1 4793 11364 244 1213 II 3 AAG59482.1 4795 11366 550 AAG59481.1 4796 11367 235 1214 II 3 BAB38681.1 4798 11369 550 BAB38680.1 4799 11370 235 1215 II 3 ACA79490.1 4801 11372 550 ACA79491.1 4802 11373 235 1216 II 3 ACB17340.1 4804 11375 550 ACB16649.1 4805 11376 235 1217 II 3 ACI35160.1 4807 11378 550 ACI35732.1 4808 11379 235 1218 II 3 ACT75062.1 4810 11381 550 ACT75061.1 4811 11382 235 1219 II 3 ADD59517.1 4813 11384 550 ADD59516.1 4814 11385 235 1220 II 3 EEC30753.1 4816 11387 550 EEC30190.1 4817 11388 235 1221 II 3 EFK27048.1 4819 11390 550 EFK27047.1 4820 11391 235 1222 II 3 EDU34174.1 4822 11393 550 EDU34140.1 4823 11394 235 1223 II 3 EDU54291.1 4825 11396 550 EDU54290.1 4826 11397 235 1224 II 3 EDU68759.1 4828 11399 550 EDU68786.1 4829 11400 235 1225 II 3 EDU76183.1 4831 11402 550 EDU76267.1 4832 11403 235 1226 II 3 EDU82627.1 4834 11405 550 EDU82726.1 4835 11406 235 1227 II 3 EDU87443.1 4837 11408 550 EDU87344.1 4838 11409 235 1228 II 3 EDU93482.1 4840 11411 550 EDU93378.1 4841 11412 235 1229 II 3 EDU97879.1 4843 11414 550 EDU97966.1 4844 11415 235 1230 II 3 EGI28993.1 4846 11417 550 EGI28991.1 4847 11418 159 1231 II 3 EDZ75683.1 4849 11420 550 EDZ75201.1 4850 11421 235 1232 II 3 EDZ82225.1 4852 11423 550 EDZ82316.1 4853 11424 235 1233 II 3 EDZ89786.1 4855 11426 550 EDZ89331.1 4856 11427 235 1234 II 3 EFX08673.1 4858 11429 550 EFX08672.1 4859 11430 235 1235 II 3 EFX13462.1 4861 11432 550 EFX13461.1 4862 11433 235 1236 II 3 EFX18239.1 4864 11435 550 EFX18238.1 4865 11436 235 1237 II 3 EFX28078.1 4867 11438 498 EFX28077.1 4868 11439 235 1238 II 3 EFX32591.1 4870 11441 498 EFX32590.1 4871 11442 235 1239 II 3 EGD70493.1 4873 11444 550 EGD70492.1 4874 11445 206 1240 II 3 EGD69129.1 4876 11447 550 EGD69130.1 4877 11448 206 1241 II 3 EFW65234.1 4879 11450 550 EFW65235.1 4880 11451 206 1242 II 3 AEZ43447.1 4882 11453 550 AEZ43446.1 4883 11454 235 1243 II 3 EHU86059.1 4885 11456 550 EHU86058.1 4886 11457 210 1244 II 3 EHU89504.1 4888 11459 498 EHU89503.1 4889 11460 76 1245 II 3 EHV18499.1 4891 11462 498 EHV18498.1 4892 11463 210 1246 II 3 EHV31734.1 4894 11465 550 EHV31797.1 4895 11466 206 1247 II 3 EHV46593.1 4897 11468 498 EHV46592.1 4898 11469 210 1248 II 3 EIF87146.1 4900 11471 550 EIF87145.1 4901 11472 235 1249 II 3 AFJ31993.1 4903 11474 550 AFJ31992.1 4904 11475 235 1250 II 3 EIN15909.1 4906 11477 550 EIN15908.1 4907 11478 210 1251 II 3 EIP63310.1 4909 11480 550 EIP63578.1 4910 11481 206 1252 II 3 EIP71583.1 4912 11483 550 EIP71554.1 4913 11484 202 1253 II 3 EIO79100.1 4915 11486 550 EIO79099.1 4916 11487 210 1254 II 3 EIN94365.1 4918 11489 550 EIN94459.1 4919 11490 202 1255 II 3 EIO32395.1 4921 11492 550 EIO32394.1 4922 11493 210 1256 II 3 EIO45819.1 4924 11495 550 EIO46021.1 4925 11496 210 1257 II 3 EIO63273.1 4927 11498 550 EIO63762.1 4928 11499 210 1258 II 3 EIO69657.1 4930 11501 550 EIO69656.1 4931 11502 210 1259 II 3 EIO86334.1 4933 11504 550 EIO86307.1 4934 11505 206 1260 II 3 EIP72925.1 4936 11507 550 EIP72924.1 4937 11508 210 1261 II 3 EIP72313.1 4939 11510 550 EIP72312.1 4940 11511 210 1262 II 3 EIP50029.1 4942 11513 550 EIP50028.1 4943 11514 206 1263 II 3 EIP48998.1 4945 11516 550 EIP49007.1 4946 11517 205 1264 II 3 EIP40275.1 4948 11519 550 EIP40258.1 4949 11520 235 1265 II 3 EIP35349.1 4951 11522 550 EIP35359.1 4952 11523 210 1266 II 3 EIP27300.1 4954 11525 452 EIP27306.1 4955 11526 210 1267 II 3 EIP38853.1 4957 11528 550 EIP38852.1 4958 11529 210 1268 II 3 EIP33942.1 4960 11531 550 EIP33941.1 4961 11532 210 1269 II 3 EIP10352.1 4963 11534 550 EIP10349.1 4964 11535 210 1270 II 3 EIP05667.1 4966 11537 550 EIP05660.1 4967 11538 210 1271 II 3 EIP03403.1 4969 11540 452 EIP03404.1 4970 11541 210 1272 II 3 EIO92501.1 4972 11543 550 EIO92517.1 4973 11544 210 1273 II 3 EIO87483.1 4975 11546 550 EIO87493.1 4976 11547 202 1274 II 3 EIN16733.1 4978 11549 550 EIN16732.1 4979 11550 210 1275 II 3 EIN15657.1 4981 11552 550 EIN15629.1 4982 11553 210 1276 II 3 EIN33040.1 4984 11555 550 EIN33050.1 4985 11556 210 1277 II 3 EIO86817.1 4987 11558 191 EIO86816.1 4988 11559 202 1278 II 3 EIO65815.1 4990 11561 550 EIO65813.1 4991 11562 210 1279 II 3 EIO79447.1 4993 11564 550 EIO79464.1 4994 11565 210 1280 II 3 EIO49130.1 4996 11567 550 EIO49202.1 4997 11568 202 1281 II 3 EIO29777.1 4999 11570 550 EIO29776.1 5000 11571 206 1282 II 3 EIO24705.1 5002 11573 452 EIO24703.1 5003 11574 210 1283 II 3 EIO11193.1 5005 11576 550 EIO11192.1 5006 11577 210 1284 II 3 EIO07409.1 5008 11579 550 EIO07417.1 5009 11580 210 1285 II 3 EIO07023.1 5011 11582 550 EIO07031.1 5012 11583 210 1286 II 3 EIO09663.1 5014 11585 550 EIO09672.1 5015 11586 206 1287 II 3 EIN89796.1 5017 11588 550 EIN89896.1 5018 11589 210 1288 II 3 EIN88185.1 5020 11591 550 EIN88192.1 5021 11592 210 1289 II 3 EIN85439.1 5023 11594 550 EIN85471.1 5024 11595 210 1290 II 3 EIN69802.1 5026 11597 550 EIN69801.1 5027 11598 210 1291 II 3 EIN65413.1 5029 11600 550 EIN65412.1 5030 11601 202 1292 II 3 EIN68646.1 5032 11603 550 EIN68645.1 5033 11604 210 1293 II 3 EIN52366.1 5035 11606 550 EIN52365.1 5036 11607 210 1294 II 3 EIN49112.1 5038 11609 550 EIN49111.1 5039 11610 210 1295 II 3 EIN33836.1 5041 11612 550 EIN33835.1 5042 11613 210 1296 II 3 EIN35239.1 5044 11615 550 EIN35238.1 5045 11616 202 1297 II 3 EKG95781.1 5047 11618 550 EKG95780.1 5048 11619 205 1298 II 3 EKH07680.1 5050 11621 550 EKH07679.1 5051 11622 206 1299 II 3 EKJ54995.1 5053 11624 550 EKJ54994.1 5054 11625 210 1300 II 3 EKJ48134.1 5056 11627 550 EKJ48188.1 5057 11628 210 1301 II 3 EKJ52904.1 5059 11630 550 EKJ52873.1 5060 11631 210 1302 II 3 EKJ36498.1 5062 11633 550 EKJ36497.1 5063 11634 202 1303 II 3 EKJ47662.1 5065 11636 550 EKJ47661.1 5066 11637 210 1304 II 3 EKJ36051.1 5068 11639 550 EKJ36042.1 5069 11640 210 1305 II 3 EKJ20862.1 5071 11642 498 EKJ20861.1 5072 11643 210 1306 II 3 EKJ19824.1 5074 11645 550 EKJ19823.1 5075 11646 206 1307 II 3 EKJ00851.1 5077 11648 550 EKJ00850.1 5078 11649 210 1308 II 3 EKI92952.1 5080 11651 550 EKI92951.1 5081 11652 210 1309 II 3 EKJ05352.1 5083 11654 550 EKJ05390.1 5084 11655 202 1310 II 3 EKI82675.1 5086 11657 550 EKI82674.1 5087 11658 210 1311 II 3 EKI91870.1 5089 11660 550 EKI91869.1 5090 11661 210 1312 II 3 EKI72763.1 5092 11663 550 EKI72762.1 5093 11664 210 1313 II 3 EKI64838.1 5095 11666 550 EKI64837.1 5096 11667 210 1314 II 3 EKI59123.1 5098 11669 550 EKI59122.1 5099 11670 210 1315 II 3 EKI57117.1 5101 11672 550 EKI57139.1 5102 11673 206 1316 II 3 EKI46667.1 5104 11675 550 EKI46666.1 5105 11676 210 1317 II 3 EKI33386.1 5107 11678 498 EKI33385.1 5108 11679 210 1318 II 3 EKH20917.1 5110 11681 550 EKH20916.1 5111 11682 210 1319 II 3 EKH25286.1 5113 11684 550 EKH25285.1 5114 11685 210 1320 II 3 EKH13352.1 5116 11687 550 EKH13351.1 5117 11688 210 1321 II 3 EKH36315.1 5119 11690 550 EKH36314.1 5120 11691 210 1322 II 3 EKH26863.1 5122 11693 550 EKH26862.1 5123 11694 210 1323 II 3 EKH48829.1 5125 11696 550 EKH48828.1 5126 11697 210 1324 II 3 EKH53678.1 5128 11699 550 EKH53677.1 5129 11700 210 1325 II 3 EKH61580.1 5131 11702 550 EKH61520.1 5132 11703 210 1326 II 3 EKH63165.1 5134 11705 550 EKH63164.1 5135 11706 210 1327 II 3 EKH71847.1 5137 11708 550 EKH71789.1 5138 11709 210 1328 II 3 EKH63848.1 5140 11711 550 EKH63847.1 5141 11712 210 1329 II 3 EKH83439.1 5143 11714 550 EKH83457.1 5144 11715 210 1330 II 3 EKH87900.1 5146 11717 550 EKH87899.1 5147 11718 210 1331 II 3 EKH95565.1 5149 11720 550 EKH95564.1 5150 11721 210 1332 II 3 EKI01262.1 5152 11723 550 EKI01261.1 5153 11724 210 1333 II 3 EKI02731.1 5155 11726 550 EKI02730.1 5156 11727 210 1334 II 3 EKH96738.1 5158 11729 550 EKH96737.1 5159 11730 210 1335 II 3 EKI03040.1 5161 11732 550 EKI03039.1 5162 11733 210 1336 II 3 EKI06059.1 5164 11735 550 EKI06058.1 5165 11736 210 1337 II 3 EKK37394.1 5167 11738 550 EKK37393.1 5168 11739 210 1338 II 3 EKK71766.1 5170 11741 550 EKK71765.1 5171 11742 210 1339 II 3 EKK91183.1 5173 11744 550 EKK91182.1 5174 11745 210 1340 II 3 EKK36994.1 5176 11747 550 EKK36843.1 5177 11748 206 1341 II 3 EKK37977.1 5179 11750 550 EKK37976.1 5180 11751 206 1342 II 3 EKK61089.1 5182 11753 550 EKK61088.1 5183 11754 205 1343 II 3 EKK52332.1 5185 11756 550 EKK52331.1 5186 11757 210 1344 II 3 EKK67939.1 5188 11759 550 EKK67938.1 5189 11760 210 1345 II 3 EKK62291.1 5191 11762 550 EKK62290.1 5192 11763 210 1346 II 3 EKK87667.1 5194 11765 550 EKK87666.1 5195 11766 210 1347 II 3 EKV88765.1 5197 11768 550 EKV88764.1 5198 11769 210 1348 II 3 EKV85098.1 5200 11771 550 EKV85097.1 5201 11772 210 1349 II 3 EKV70652.1 5203 11774 550 EKV70651.1 5204 11775 210 1350 II 3 EKW05771.1 5206 11777 550 EKW05770.1 5207 11778 202 1351 II 3 EKV91529.1 5209 11780 550 EKV91591.1 5210 11781 210 1352 II 3 EKW03290.1 5212 11783 550 EKW03180.1 5213 11784 210 1353 II 3 EKW04243.1 5215 11786 550 EKW04288.1 5216 11787 210 1354 II 3 EKW19024.1 5218 11789 550 EKW19023.1 5219 11790 210 1355 II 3 EKW08487.1 5221 11792 550 EKW08486.1 5222 11793 210 1356 II 3 EKW71371.1 5224 11795 550 EKW71370.1 5225 11796 210 1357 II 3 EKW96655.1 5227 11798 550 EKW96654.1 5228 11799 202 1358 II 3 EKW96260.1 5230 11801 550 EKW96259.1 5231 11802 210 1359 II 3 EKW76356.1 5233 11804 498 EKW76355.1 5234 11805 210 1360 II 3 EKW75842.1 5236 11807 550 EKW75841.1 5237 11808 206 1361 II 3 EKW68012.1 5239 11810 550 EKW68011.1 5240 11811 202 1362 II 3 EKW74793.1 5242 11813 550 EKW74753.1 5243 11814 210 1363 II 3 EKW43906.1 5245 11816 550 EKW43905.1 5246 11817 210 1364 II 3 EKW70675.1 5248 11819 550 EKW70674.1 5249 11820 210 1365 II 3 EKW38124.1 5251 11822 550 EKW38123.1 5252 11823 210 1366 II 3 EKW21071.1 5254 11825 352 EKW21070.1 5255 11826 210 1367 II 3 EKW36043.1 5257 11828 550 EKW36042.1 5258 11829 202 1368 II 3 EKW36718.1 5260 11831 550 EKW36717.1 5261 11832 210 1369 II 3 EKW51278.1 5263 11834 550 EKW51302.1 5264 11835 210 1370 II 3 EKY34591.1 5266 11837 550 EKY34590.1 5267 11838 210 1371 II 3 EKY34729.1 5269 11840 498 EKY34728.1 5270 11841 206 1372 II 3 ELI49200.1 5272 11843 550 ELI49199.1 5273 11844 235 1373 II 3 ELV23654.1 5275 11846 550 ELV23653.1 5276 11847 210 1374 II 3 ELV30876.1 5278 11849 550 ELV30875.1 5279 11850 210 1375 II 3 ELV62885.1 5281 11852 498 ELV62893.1 5282 11853 210 1376 II 3 ELV61722.1 5284 11855 443 ELV61721.1 5285 11856 210 1377 II 3 ELV63259.1 5287 11858 550 ELV63258.1 5288 11859 210 1378 II 3 ELV91642.1 5290 11861 550 ELV91641.1 5291 11862 206 1379 II 3 ELV93149.1 5293 11864 550 ELV93148.1 5294 11865 210 1380 II 3 ELW21805.1 5296 11867 550 ELW21804.1 5297 11868 205 1381 II 3 ELW24262.1 5299 11870 550 ELW24261.1 5300 11871 210 1382 II 3 ELW27707.1 5302 11873 550 ELW27706.1 5303 11874 210 1383 II 3 ELW23231.1 5305 11876 550 ELW23230.1 5306 11877 202 1384 II 3 ELW28316.1 5308 11879 550 ELW28315.1 5309 11880 202 1385 II 3 ELW46370.1 5311 11882 550 ELW46369.1 5312 11883 210 1386 II 3 ELV14533.1 5314 11885 550 ELV14532.1 5315 11886 210 1387 II 3 ELV31270.1 5317 11888 550 ELV31244.1 5318 11889 210 1388 II 3 ELV35522.1 5320 11891 550 ELV35521.1 5321 11892 206 1389 II 3 ELV44403.1 5323 11894 452 ELV44402.1 5324 11895 235 1390 II 3 ELV47175.1 5326 11897 550 ELV47167.1 5327 11898 206 1391 II 3 ELV76553.1 5329 11900 550 ELV76552.1 5330 11901 202 1392 II 3 ELV98805.1 5332 11903 550 ELV98804.1 5333 11904 210 1393 II 3 ELV75967.1 5335 11906 550 ELV75966.1 5336 11907 210 1394 II 3 ELV90962.1 5338 11909 550 ELV90961.1 5339 11910 235 1395 II 3 ELW12424.1 5341 11912 550 ELW12423.1 5342 11913 210 1396 II 3 ELV15308.1 5344 11915 550 ELV15307.1 5345 11916 210 1397 II 3 EMR91942.1 5347 11918 550 EMR91943.1 5348 11919 235 1398 II 3 EMS03600.1 5350 11921 550 EMS03599.1 5351 11922 235 1399 II 3 ELE41780.1 5353 11924 550 ELE41779.1 5354 11925 235 1400 II 3 ELF28432.1 5356 11927 550 ELF28431.1 5357 11928 235 1401 II 3 ELG08155.1 5359 11930 550 ELG08154.1 5360 11931 235 1402 II 3 ELH63190.1 5362 11933 550 ELH63189.1 5363 11934 235 1403 II 3 ENE27218.1 5365 11936 550 ENE27216.1 5366 11937 206 1404 II 3 EQO57392.1 5368 11939 550 EQO57391.1 5369 11940 235 1405 II 3 EQO66403.1 5371 11942 550 EQO66402.1 5372 11943 235 1406 II 3 EQT31739.1 5374 11945 550 EQT31738.1 5375 11946 235 1407 II 3 EQT84558.1 5377 11948 550 EQT84557.1 5378 11949 235 1408 II 3 ERB08804.1 5380 11951 550 ERB08803.1 5381 11952 235 1409 II 3 ERB13352.1 5383 11954 550 ERB13353.1 5384 11955 235 1410 II 3 ERC00102.1 5386 11957 550 ERC00101.1 5387 11958 206 1411 II 3 ERB68141.1 5389 11960 550 ERB68140.1 5390 11961 210 1412 II 3 ERB88973.1 5392 11963 550 ERB88972.1 5393 11964 210 1413 II 3 ERC15358.1 5395 11966 550 ERC15203.1 5396 11967 202 1414 II 3 ERB79215.1 5398 11969 550 ERB79214.1 5399 11970 205 1415 II 3 ERB91962.1 5401 11972 550 ERB92027.1 5402 11973 205 1416 II 3 ERC08311.1 5404 11975 550 ERC08310.1 5405 11976 210 1417 II 3 ERC32305.1 5407 11978 550 ERC32304.1 5408 11979 210 1418 II 3 ERC25309.1 5410 11981 550 ERC25308.1 5411 11982 205 1419 II 3 ERC09303.1 5413 11984 550 ERC09302.1 5414 11985 210 1420 II 3 ERC10658.1 5416 11987 550 ERC10657.1 5417 11988 206 1421 II 3 ERE14327.1 5419 11990 550 ERE14326.1 5420 11991 210 1422 II 3 ERC92367.1 5422 11993 550 ERC92366.1 5423 11994 235 1423 II 3 ERD40230.1 5425 11996 550 ERD40229.1 5426 11997 210 1424 II 3 ERC91695.1 5428 11999 550 ERC91694.1 5429 12000 206 1425 II 3 ERD09264.1 5431 12002 550 ERD09263.1 5432 12003 210 1426 II 3 ERC65822.1 5434 12005 550 ERC65821.1 5435 12006 210 1427 II 3 ERC53517.1 5437 12008 550 ERC53516.1 5438 12009 202 1428 II 3 ERE00881.1 5440 12011 550 ERE00880.1 5441 12012 210 1429 II 3 ERE21796.1 5443 12014 550 ERE21795.1 5444 12015 202 1430 II 3 ERC61430.1 5446 12017 550 ERC61431.1 5447 12018 235 1431 II 3 ERC74185.1 5449 12020 550 ERC74184.1 5450 12021 210 1432 II 3 ERC30060.1 5452 12023 550 ERC30059.1 5453 12024 206 1433 II 3 ERC33933.1 5455 12026 550 ERC33932.1 5456 12027 210 1434 II 3 ERC40340.1 5458 12029 550 ERC40339.1 5459 12030 206 1435 II 3 ERC48257.1 5461 12032 550 ERC48256.1 5462 12033 210 1436 II 3 ERD08504.1 5464 12035 550 ERD08318.1 5465 12036 206 1437 II 3 ERD05019.1 5467 12038 550 ERD05018.1 5468 12039 210 1438 II 3 ERD20746.1 5470 12041 550 ERD20745.1 5471 12042 206 1439 II 3 ERD22950.1 5473 12044 550 ERD22949.1 5474 12045 210 1440 II 3 ERD23990.1 5476 12047 550 ERD23989.1 5477 12048 210 1441 II 3 ERD35106.1 5479 12050 550 ERD35201.1 5480 12051 214 1442 II 3 ERD37183.1 5482 12053 550 ERD37182.1 5483 12054 210 1443 II 3 ERD26787.1 5485 12056 498 ERD26788.1 5486 12057 210 1444 II 3 ERD52929.1 5488 12059 550 ERD52928.1 5489 12060 210 1445 II 3 ERD45127.1 5491 12062 550 ERD45126.1 5492 12063 210 1446 II 3 ERD72597.1 5494 12065 550 ERD72596.1 5495 12066 205 1447 II 3 ERD68376.1 5497 12068 550 ERD68375.1 5498 12069 202 1448 II 3 ERD73526.1 5500 12071 498 ERD73510.1 5501 12072 210 1449 II 3 ERD83187.1 5503 12074 550 ERD83186.1 5504 12075 206 1450 II 3 ERD87990.1 5506 12077 550 ERD87989.1 5507 12078 210 1451 II 3 ERD91775.1 5509 12080 550 ERD91774.1 5510 12081 210 1452 II 3 ERD98682.1 5512 12083 550 ERD98681.1 5513 12084 210 1453 II 3 ERD88427.1 5515 12086 498 ERD88426.1 5516 12087 205 1454 II 3 ERE36110.1 5518 12089 550 ERE36109.1 5519 12090 210 1455 II 3 ERE23639.1 5521 12092 550 ERE23638.1 5522 12093 210 1456 II 3 ERE42060.1 5524 12095 550 ERE42059.1 5525 12096 210 1457 II 3 ERE45408.1 5527 12098 550 ERE45407.1 5528 12099 202 1458 II 3 ETJ70764.1 5530 12101 550 ETJ70765.1 5531 12102 235 1459 II 3 ERC07680.1 5533 12104 550 ERC07679.1 5534 12105 206 1460 II 3 ESD10539.1 5536 12107 550 ESD10538.1 5537 12108 235 1461 II 3 ESL20616.1 5539 12110 550 ESL20617.1 5540 12111 235 1462 II 3 ESP12226.1 5542 12113 550 ESP12225.1 5543 12114 235 1463 II 3 ETJ79053.1 5545 12116 550 ETJ79052.1 5546 12117 235 1464 II 3 EST67462.1 5548 12119 550 EST67463.1 5549 12120 55 1465 II 3 EST67376.1 5551 12122 550 EST67377.1 5552 12123 235 1466 II 3 AHG12155.1 5554 12125 498 AHG12154.1 5555 12126 210 1467 II 3 EYE30767.1 5557 12128 550 EYE30766.1 5558 12129 235 1468 II 3 EYE15509.1 5560 12131 550 EYE15508.1 5561 12132 235 1469 II 3 EYE15596.1 5563 12134 550 EYE15595.1 5564 12135 210 1470 II 3 EYW09907.1 5566 12137 550 EYW09908.1 5567 12138 210 1471 II 3 EYW25814.1 5569 12140 550 EYW25815.1 5570 12141 210 1472 II 3 EYW27180.1 5572 12143 550 EYW27179.1 5573 12144 210 1473 II 3 EYW07431.1 5575 12146 550 EYW07430.1 5576 12147 210 1474 II 3 EYW24509.1 5578 12149 550 EYW24508.1 5579 12150 210 1475 II 3 EYW34609.1 5581 12152 550 EYW34608.1 5582 12153 210 1476 II 3 EYW13500.1 5584 12155 550 EYW13499.1 5585 12156 210 1477 II 3 EYV89287.1 5587 12158 550 EYV89288.1 5588 12159 210 1478 II 3 EYY46579.1 5590 12161 550 EYY46580.1 5591 12162 210 1479 II 3 EYV70454.1 5593 12164 550 EYV70453.1 5594 12165 210 1480 II 3 EYV67646.1 5596 12167 550 EYV67645.1 5597 12168 210 1481 II 3 EYV59035.1 5599 12170 550 EYV59034.1 5600 12171 210 1482 II 3 EYV37954.1 5602 12173 550 EYV37955.1 5603 12174 210 1483 II 3 EYV46019.1 5605 12176 550 EYV46020.1 5606 12177 210 1484 II 3 EYV44256.1 5608 12179 550 EYV44255.1 5609 12180 210 1485 II 3 EYV24873.1 5611 12182 550 EYV24872.1 5612 12183 210 1486 II 3 EYV22945.1 5614 12185 550 EYV22946.1 5615 12186 210 1487 II 3 EYV18170.1 5617 12188 550 EYV18171.1 5618 12189 210 1488 II 3 EYV20080.1 5620 12191 550 EYV20081.1 5621 12192 210 1489 II 3 EYV16482.1 5623 12194 550 EYV16481.1 5624 12195 210 1490 II 3 EYW83367.1 5626 12197 550 EYW83368.1 5627 12198 210 1491 II 3 EYW75519.1 5629 12200 550 EYW75518.1 5630 12201 210 1492 II 3 EYW71149.1 5632 12203 550 EYW71148.1 5633 12204 210 1493 II 3 EYW67181.1 5635 12206 550 EYW67182.1 5636 12207 210 1494 II 3 EYW64050.1 5638 12209 550 EYW64051.1 5639 12210 210 1495 II 3 EYW57178.1 5641 12212 550 EYW57179.1 5642 12213 210 1496 II 3 EYW49140.1 5644 12215 550 EYW49139.1 5645 12216 210 1497 II 3 EYW49453.1 5647 12218 550 EYW49452.1 5648 12219 210 1498 II 3 EYW43050.1 5650 12221 550 EYW43051.1 5651 12222 210 1499 II 3 EYW39160.1 5653 12224 550 EYW39159.1 5654 12225 210 1500 II 3 EYX70058.1 5656 12227 550 EYX70057.1 5657 12228 210 1501 II 3 EYX57445.1 5659 12230 550 EYX57446.1 5660 12231 210 1502 II 3 EYX54550.1 5662 12233 550 EYX54551.1 5663 12234 210 1503 II 3 EYX48136.1 5665 12236 550 EYX48137.1 5666 12237 210 1504 II 3 EYX44883.1 5668 12239 550 EYX44884.1 5669 12240 210 1505 II 3 EYX43991.1 5671 12242 550 EYX43990.1 5672 12243 210 1506 II 3 EYX33006.1 5674 12245 550 EYX33007.1 5675 12246 210 1507 II 3 EYX30698.1 5677 12248 550 EYX30699.1 5678 12249 210 1508 II 3 EYX27759.1 5680 12251 550 EYX27758.1 5681 12252 210 1509 II 3 EYX13626.1 5683 12254 550 EYX13625.1 5684 12255 210 1510 II 3 EYX12329.1 5686 12257 550 EYX12330.1 5687 12258 210 1511 II 3 EYX02202.1 5689 12260 550 EYX02201.1 5690 12261 210 1512 II 3 EYW98550.1 5692 12263 550 EYW98549.1 5693 12264 210 1513 II 3 EYW85334.1 5695 12266 550 EYW85335.1 5696 12267 210 1514 II 3 EYV84725.1 5698 12269 550 EYV84726.1 5699 12270 210 1515 II 3 EYZ76664.1 5701 12272 550 EYZ76665.1 5702 12273 210 1516 II 3 EYZ63882.1 5704 12275 550 EYZ63883.1 5705 12276 210 1517 II 3 EYZ52260.1 5707 12278 550 EYZ52261.1 5708 12279 210 1518 II 3 EYZ37414.1 5710 12281 550 EYZ37413.1 5711 12282 210 1519 II 3 EYZ38309.1 5713 12284 550 EYZ38310.1 5714 12285 210 1520 II 3 EYZ36219.1 5716 12287 550 EYZ36220.1 5717 12288 210 1521 II 3 EYZ14531.1 5719 12290 550 EYZ14532.1 5720 12291 210 1522 II 3 EZC28522.1 5722 12293 550 EZC28521.1 5723 12294 210 1523 II 3 EZB48636.1 5725 12296 550 EZB48635.1 5726 12297 210 1524 II 3 EZB05976.1 5728 12299 550 EZB05977.1 5729 12300 210 1525 II 3 EZB18141.1 5731 12302 550 EZB18140.1 5732 12303 210 1526 II 3 EZA89753.1 5734 12305 550 EZA89754.1 5735 12306 210 1527 II 3 EZB32013.1 5737 12308 550 EZB32012.1 5738 12309 210 1528 II 3 EZB20622.1 5740 12311 550 EZB20623.1 5741 12312 210 1529 II 3 EZB41522.1 5743 12314 550 EZB41521.1 5744 12315 210 1530 II 3 EZB11567.1 5746 12317 550 EZB11568.1 5747 12318 210 1531 II 3 EZB46983.1 5749 12320 550 EZB46982.1 5750 12321 210 1532 II 3 EZB04405.1 5752 12323 550 EZB04406.1 5753 12324 210 1533 II 3 EZB74688.1 5755 12326 550 EZB74687.1 5756 12327 210 1534 II 3 EZB73672.1 5758 12329 550 EZB73671.1 5759 12330 210 1535 II 3 EZB73224.1 5761 12332 550 EZB73225.1 5762 12333 210 1536 II 3 EZB87909.1 5764 12335 550 EZB87908.1 5765 12336 210 1537 II 3 EZB80137.1 5767 12338 550 EZB80138.1 5768 12339 210 1538 II 3 EZB81693.1 5770 12341 550 EZB81692.1 5771 12342 210 1539 II 3 EZB96172.1 5773 12344 264 EZB96173.1 5774 12345 210 1540 II 3 EZC15365.1 5776 12347 498 EZC15364.1 5777 12348 210 1541 II 3 EZC19641.1 5779 12350 550 EZC19640.1 5780 12351 210 1542 II 3 EZC20554.1 5782 12353 550 EZC20553.1 5783 12354 210 1543 II 3 EZC30166.1 5785 12356 550 EZC30167.1 5786 12357 210 1544 II 3 EZC37647.1 5788 12359 550 EZC37648.1 5789 12360 210 1545 II 3 EZC43981.1 5791 12362 550 EZC43980.1 5792 12363 210 1546 II 3 EZB95444.1 5794 12365 550 EZB95445.1 5795 12366 210 1547 II 3 EZC48750.1 5797 12368 550 EZC48751.1 5798 12369 210 1548 II 3 EZC62957.1 5800 12371 550 EZC62958.1 5801 12372 210 1549 II 3 EZC70420.1 5803 12374 550 EZC70419.1 5804 12375 210 1550 II 3 EZC77660.1 5806 12377 550 EZC77659.1 5807 12378 210 1551 II 3 EZC64797.1 5809 12380 550 EZC64798.1 5810 12381 210 1552 II 3 EZC90331.1 5812 12383 550 EZC90330.1 5813 12384 210 1553 II 3 EZC92769.1 5815 12386 550 EZC92768.1 5816 12387 210 1554 II 3 EZC86951.1 5818 12389 550 EZC86950.1 5819 12390 210 1555 II 3 EZC83412.1 5821 12392 550 EZC83411.1 5822 12393 210 1556 II 3 EZD75267.1 5824 12395 550 EZD75266.1 5825 12396 210 1557 II 3 EZF08562.1 5827 12398 550 EZF08563.1 5828 12399 210 1558 II 3 EZF05483.1 5830 12401 550 EZF05484.1 5831 12402 210 1559 II 3 EZE61419.1 5833 12404 550 EZE61418.1 5834 12405 210 1560 II 3 EZE88804.1 5836 12407 550 EZE88803.1 5837 12408 210 1561 II 3 EZE89447.1 5839 12410 550 EZE89446.1 5840 12411 210 1562 II 3 EZE90569.1 5842 12413 550 EZE90570.1 5843 12414 210 1563 II 3 EZD08970.1 5845 12416 550 EZD08971.1 5846 12417 210 1564 II 3 EZD16779.1 5848 12419 476 EZD16778.1 5849 12420 210 1565 II 3 EZD15759.1 5851 12422 550 EZD15760.1 5852 12423 210 1566 II 3 EZD19490.1 5854 12425 550 EZD19491.1 5855 12426 210 1567 II 3 EZD00269.1 5857 12428 550 EZD00270.1 5858 12429 210 1568 II 3 EZD85328.1 5860 12431 550 EZD85327.1 5861 12432 210 1569 II 3 EZD90122.1 5863 12434 550 EZD90121.1 5864 12435 210 1570 II 3 EZJ86906.1 5866 12437 550 EZJ86912.1 5867 12438 205 1571 II 3 EZJ76223.1 5869 12440 498 EZJ76224.1 5870 12441 206 1572 II 3 EZJ72758.1 5872 12443 550 EZJ72757.1 5873 12444 206 1573 II 3 EZK00741.1 5875 12446 550 EZK00742.1 5876 12447 235 1574 II 3 EZQ47392.1 5878 12449 550 EZQ47391.1 5879 12450 210 1575 II 3 EZQ50284.1 5881 12452 550 EZQ50285.1 5882 12453 210 1576 II 3 AHY73974.1 5884 12455 498 AHY73973.1 5885 12456 210 1577 II 3 KDA70996.1 5887 12458 550 KDA70993.1 5888 12459 214 1578 II 3 KDA57924.1 5890 12461 498 KDA57923.1 5891 12462 210 1579 II 3 KDM81019.1 5893 12464 550 KDM81018.1 5894 12465 210 1580 II 3 KDM84274.1 5896 12467 550 KDM84275.1 5897 12468 210 1581 II 3 KDT83300.1 5899 12470 550 KDT83311.1 5900 12471 235 1582 II 3 KDX42979.1 5902 12473 498 KDX42980.1 5903 12474 235 1583 II 3 KEJ21097.1 5905 12476 550 KEJ21096.1 5906 12477 235 1584 II 3 KEJ20441.1 5908 12479 550 KEJ20440.1 5909 12480 210 1585 II 3 KEM49610.1 5911 12482 550 KEM49616.1 5912 12483 210 1586 II 3 KEM85726.1 5914 12485 550 KEM85727.1 5915 12486 210 1587 II 3 KEN65095.1 5917 12488 550 KEN65104.1 5918 12489 210 1588 II 3 KEO16490.1 5920 12491 498 KEO16489.1 5921 12492 235 1589 II 3 KEO21427.1 5923 12494 550 KEO21426.1 5924 12495 235 1590 II 3 KEK80772.1 5926 12497 550 KEK80773.1 5927 12498 235 1591 II 3 KEK94609.1 5929 12500 550 KEK94610.1 5930 12501 235 1592 II 3 KEL07350.1 5932 12503 550 KEL07345.1 5933 12504 206 1593 II 3 KEL97937.1 5935 12506 550 KEL97936.1 5936 12507 235 1594 II 3 KEM08518.1 5938 12509 550 KEM08517.1 5939 12510 235 1595 II 3 AIF96932.1 5941 12512 550 AIF96931.1 5942 12513 235 1596 II 3 AIG71772.1 5944 12515 550 AIG71771.1 5945 12516 205 1597 II 3 KHI41604.1 5947 12518 550 KHI41605.1 5948 12519 235 1598 II 3 KHH50139.1 5950 12521 550 KHH50140.1 5951 12522 235 1599 II 3 KHI22225.1 5953 12524 550 KHI22224.1 5954 12525 235 1600 II 3 AJA29434.1 5956 12527 550 AJA29433.1 5957 12528 235 1601 II 3 KIG29572.1 5959 12530 550 KIG29573.1 5960 12531 235 1602 II 3 KIY28271.1 5962 12533 550 KIY28270.1 5963 12534 235 1603 II 3 KIZ09777.1 5965 12536 550 KIZ09776.1 5966 12537 235 1604 II 3 KJJ46592.1 5968 12539 550 KJJ46591.1 5969 12540 235 1605 II 3 KJW55353.1 5971 12542 550 KJW55352.1 5972 12543 235 1606 II 3 KJW51697.1 5974 12545 550 KJW51698.1 5975 12546 235 1607 II 3 KKF77971.1 5977 12548 550 KKF77970.1 5978 12549 235 1608 II 3 KKF80396.1 5980 12551 550 KKF80395.1 5981 12552 235 1609 II 3 KKK30167.1 5983 12554 550 KKK30168.1 5984 12555 235 1610 II 3 KKY44750.1 5986 12557 550 KKY44749.1 5987 12558 235 1611 II 3 KLG52812.1 5989 12560 550 KLG52813.1 5990 12561 235 1612 II 3 KNF16835.1 5992 12563 550 KNF16834.1 5993 12564 235 1613 II 3 KNF20996.1 5995 12566 550 KNF20997.1 5996 12567 235 1614 II 3 KNF39641.1 5998 12569 550 KNF39642.1 5999 12570 235 1615 II 3 KNG40957.1 6001 12572 550 KNG40956.1 6002 12573 235 1616 II 3 CTT73512.1 6004 12575 550 CTT73497.1 6005 12576 235 1617 II 3 KOZ12764.1 6007 12578 550 KOZ12763.1 6008 12579 235 1618 II 3 KOZ62646.1 6010 12581 550 KOZ62645.1 6011 12582 235 1619 II 3 KOZ92032.1 6013 12584 550 KOZ92033.1 6014 12585 235 1620 II 3 KOZ11135.1 6016 12587 550 KOZ11134.1 6017 12588 235 1621 II 3 KOZ14565.1 6019 12590 550 KOZ14564.1 6020 12591 235 1622 II 3 KOZ32808.1 6022 12593 550 KOZ32807.1 6023 12594 235 1623 II 3 KOZ23192.1 6025 12596 550 KOZ23193.1 6026 12597 235 1624 II 3 KOZ33146.1 6028 12599 550 KOZ33145.1 6029 12600 235 1625 II 3 KOZ37735.1 6031 12602 550 KOZ37734.1 6032 12603 235 1626 II 3 KOZ50073.1 6034 12605 550 KOZ50074.1 6035 12606 235 1627 II 3 KOZ47194.1 6037 12608 550 KOZ47193.1 6038 12609 235 1628 II 3 KOZ49646.1 6040 12611 550 KOZ49647.1 6041 12612 235 1629 II 3 KOZ66200.1 6043 12614 550 KOZ66199.1 6044 12615 235 1630 II 3 KOZ69677.1 6046 12617 550 KOZ69678.1 6047 12618 235 1631 II 3 KOZ74922.1 6049 12620 550 KOZ74921.1 6050 12621 235 1632 II 3 KOZ84734.1 6052 12623 550 KOZ84733.1 6053 12624 235 1633 II 3 KOZ80209.1 6055 12626 550 KOZ80208.1 6056 12627 235 1634 II 3 KOZ97678.1 6058 12629 550 KOZ97679.1 6059 12630 235 1635 II 3 KPH45898.1 6061 12632 550 KPH45897.1 6062 12633 235 1636 II 3 KPH35131.1 6064 12635 550 KPH35132.1 6065 12636 235 1637 II 3 KPH38256.1 6067 12638 550 KPH38255.1 6068 12639 235 1638 II 3 ALH93594.1 6070 12641 550 ALH93593.1 6071 12642 235 1639 II 3 KPO74169.1 6073 12644 550 KPO74168.1 6074 12645 235 1640 II 3 KPP03702.1 6076 12647 550 KPP03703.1 6077 12648 235 1641 II 3 KPP08801.1 6079 12650 550 KPP08802.1 6080 12651 235 1642 II 3 KPP18125.1 6082 12653 550 KPP18126.1 6083 12654 235 1643 II 3 KPP23766.1 6085 12656 550 KPP23765.1 6086 12657 235 1644 II 3 KPP34280.1 6088 12659 550 KPP34279.1 6089 12660 235 1645 II 3 KPP38850.1 6091 12662 550 KPP38849.1 6092 12663 235 1646 II 3 KPP49038.1 6094 12665 550 KPP49037.1 6095 12666 235 1647 II 3 KPP10066.1 6097 12668 550 KPP10065.1 6098 12669 235 1648 II 3 KPP41788.1 6100 12671 550 KPP41787.1 6101 12672 235 1649 II 3 KPP53631.1 6103 12674 550 KPP53632.1 6104 12675 235 1650 II 3 KRQ04754.1 6106 12677 550 KRQ04753.1 6107 12678 235 1651 II 3 KUG91604.1 6109 12680 550 KUG91603.1 6110 12681 235 1652 II 3 KUH02053.1 6112 12683 550 KUH02054.1 6113 12684 235 1653 II 3 KUS40191.1 6115 12686 550 KUS40190.1 6116 12687 235 1654 II 3 KUT25846.1 6118 12689 550 KUT25845.1 6119 12690 235 1655 II 3 KUT16910.1 6121 12692 550 KUT16911.1 6122 12693 235 1656 II 3 KUT50286.1 6124 12695 550 KUT50285.1 6125 12696 235 1657 II 3 KUU89821.1 6127 12698 550 KUU89822.1 6128 12699 235 1658 II 3 KUT63217.1 6130 12701 550 KUT63218.1 6131 12702 235 1659 II 3 KUU32866.1 6133 12704 550 KUU32867.1 6134 12705 235 1660 II 3 KUU24010.1 6136 12707 550 KUU24009.1 6137 12708 235 1661 II 3 KUV87991.1 6139 12710 550 KUV87990.1 6140 12711 235 1662 II 3 KUW19155.1 6142 12713 550 KUW19156.1 6143 12714 235 1663 II 3 KUW69106.1 6145 12716 550 KUW69107.1 6146 12717 235 1664 II 3 KUW47131.1 6148 12719 550 KUW47132.1 6149 12720 235 1665 II 3 AMG80376.1 6151 12722 550 AMG80377.1 6152 12723 235 1666 II 3 KXK90272.1 6154 12725 550 KXK90273.1 6155 12726 235 1667 II 3 KXP75340.1 6157 12728 550 KXP75341.1 6158 12729 235 1668 II 3 KXR06383.1 6160 12731 550 KXR06382.1 6161 12732 235 1669 II 3 KXR86340.1 6163 12734 550 KXR86339.1 6164 12735 235 1670 II 3 EYT05881.1 6166 12737 550 EYT05880.1 6167 12738 235 1671 II 3 KMV95472.1 6169 12740 550 KMV95471.1 6170 12741 235 1672 II 3 ESN46751.1 6172 12743 550 ESN46750.1 6173 12744 235 1673 II 3 KDL89510.1 6175 12746 550 KDL89509.1 6176 12747 235 1674 II 3 KMG65747.1 6178 12749 550 KMG65746.1 6179 12750 235 1675 II 3 KRR31030.1 6181 12752 550 KRR31031.1 6182 12753 235 1676 II 3 CVD67996.1 6184 12755 550 CVD68041.1 6185 12756 205 1677 II 3 CVD62450.1 6187 12758 550 CVD62420.1 6188 12759 205 1678 II 3 CVA98419.1 6190 12761 550 CVA98397.1 6191 12762 205 1679 II 3 CVB67027.1 6193 12764 550 CVB66985.1 6194 12765 205 1680 II 3 CVE07719.1 6196 12767 550 CVE07671.1 6197 12768 205 1681 II 3 CUZ34178.1 6199 12770 550 CUZ34215.1 6200 12771 205 1682 II 3 CVH03780.1 6202 12773 550 CVH03759.1 6203 12774 205 1683 II 3 CUZ32573.1 6205 12776 550 CUZ32642.1 6206 12777 205 1684 II 3 CVC01626.1 6208 12779 550 CVC01593.1 6209 12780 205 1685 II 3 CVC86950.1 6211 12782 550 CVC86922.1 6212 12783 205 1686 II 3 CVC74574.1 6214 12785 550 CVC74549.1 6215 12786 205 1687 II 3 CVC09129.1 6217 12788 550 CVC09161.1 6218 12789 205 1688 II 3 CVG04189.1 6220 12791 550 CVG04225.1 6221 12792 205 1689 II 3 CVB23886.1 6223 12794 550 CVB23925.1 6224 12795 205 1690 II 3 CVE95450.1 6226 12797 550 CVE95488.1 6227 12798 205 1691 II 3 CVG92218.1 6229 12800 550 CVG92173.1 6230 12801 205 1692 II 3 CVA05211.1 6232 12803 550 CVA05242.1 6233 12804 205 1693 II 3 CQJ21079.1 6235 12806 550 CQJ21085.1 6236 12807 235 1694 II 3 CNK85706.1 6238 12809 546 CNK85680.1 6239 12810 235 1695 II 3 KLE23459.1 6241 12812 590 KLE23458.1 6242 12813 235 1696 II 3 KNY42369.1 6244 12815 583 KNY42368.1 6245 12816 235 1697 II 3 KTL44731.1 6247 12818 583 KTL44732.1 6248 12819 235 1698 II 3 KED68169.1 6250 12821 583 KED68170.1 6251 12822 235 1699 II 3 KHF16016.1 6253 12824 583 KHF16015.1 6254 12825 235 1700 II 3 KIT58956.1 6256 12827 486 KIT58955.1 6257 12828 235 1701 II 3 KIT38898.1 6259 12830 486 KIT38899.1 6260 12831 225 1702 II 3 KJR33562.1 6262 12833 583 KJR33561.1 6263 12834 235 1703 II 3 KKX83991.1 6265 12836 583 KKX83990.1 6266 12837 235 1704 II 3 KOE91954.1 6268 12839 583 KOE91953.1 6269 12840 235 1705 II 3 KOF38061.1 6271 12842 583 KOF38060.1 6272 12843 235 1706 II 3 KON59226.1 6274 12845 515 KON59157.1 6275 12846 237 1707 II 3 KXG05869.1 6277 12848 583 KXG05868.1 6278 12849 235 1708 II 3 KYJ92316.1 6280 12851 583 KYJ92315.1 6281 12852 235 1709 II 3 EMB49752.1 6283 12854 414 EMB49753.1 6284 12855 235 1710 II 3 EDL69253.1 6286 12857 583 EDL69242.1 6287 12858 235 1711 II 3 EFM85262.1 6289 12860 552 EFM85263.1 6290 12861 230 1712 II 3 EFM93934.1 6292 12863 552 EFM93935.1 6293 12864 230 1713 II 3 EFM98321.1 6295 12866 552 EFM98322.1 6296 12867 230 1714 II 3 ABI24728.1 6298 12869 589 ABI24729.1 6299 12870 229 1715 II 3 EYA48173.1 6301 12872 529 EYA48172.1 6302 12873 233 1716 II 3 EYA75808.1 6304 12875 529 EYA75712.1 6305 12876 233 1717 II 3 EYA68803.1 6307 12878 527 EYA68804.1 6308 12879 233 1718 II 3 EYA80659.1 6310 12881 529 EYA80658.1 6311 12882 233 1719 II 3 CUA18412.1 6313 12884 529 CUA18411.1 6314 12885 233 1720 II 3 KDS43041.1 6316 12887 515 KDS43042.1 6317 12888 233 1721 II 3 KDS37991.1 6319 12890 515 KDS37899.1 6320 12891 233 1722 II 3 KDS73983.1 6322 12893 515 KDS73984.1 6323 12894 233 1723 II 3 ALF18255.1 6325 12896 643 ALF18256.1 6326 12897 234 1724 II 3 KXA24061.1 6328 12899 643 KXA24060.1 6329 12900 234 1725 II 3 EFG28532.1 6331 12902 711 EFG28533.1 6332 12903 232 1726 II 3 ADJ62020.1 6334 12905 435 ADJ62019.1 6335 12906 232 1727 II 3 KTC70124.1 6337 12908 498 KTC70123.1 6338 12909 230 1728 II 3 AFT94972.1 6340 12911 598 AFT94973.1 6341 12912 235 1729 II 3 EEX38485.1 6343 12914 583 EEX38486.1 6344 12915 235 1730 II 3 CCN78625.1 6346 12917 592 CCN78626.1 6347 12918 236 1731 II 3 CCN34617.1 6349 12920 592 CCN34618.1 6350 12921 236 1732 II 3 CCN40571.1 6352 12923 592 CCN40570.1 6353 12924 236 1733 II 3 CCN66135.1 6355 12926 592 CCN66136.1 6356 12927 236 1734 II 3 KGJ97945.1 6358 12929 598 KGJ97946.1 6359 12930 238 1735 II 3 EEP49046.1 6361 12932 435 EEP51863.1 6362 12933 230 1736 II 3 AIP07406.1 6364 12935 435 AIP07455.1 6365 12936 230 1737 II 3 KGC46655.1 6367 12938 435 KGC46770.1 6368 12939 230 1738 II 3 AIV54526.1 6370 12941 435 AIV54849.1 6371 12942 230 1739 II 3 KGU70585.1 6373 12944 435 KGU70576.1 6374 12945 230 1740 II 3 KGV18629.1 6376 12947 435 KGV17582.1 6377 12948 230 1741 II 3 KGV95069.1 6379 12950 435 KGV94752.1 6380 12951 230 1742 II 3 KGV65245.1 6382 12953 435 KGV65979.1 6383 12954 230 1743 II 3 KGV93341.1 6385 12956 435 KGV92723.1 6386 12957 230 1744 II 3 KGX53114.1 6388 12959 435 KGX53127.1 6389 12960 230 1745 II 3 KGX64948.1 6391 12962 435 KGX64947.1 6392 12963 230 1746 II 3 AJX70756.1 6394 12965 435 AJX71777.1 6395 12966 230 1747 II 3 AIA69103.1 6397 12968 459 AIA69102.1 6398 12969 244 1748 II 3 AIK12008.1 6400 12971 459 AIK12007.1 6401 12972 244 1749 II 3 KMK83438.1 6403 12974 459 KMK83437.1 6404 12975 244 1750 II 3 KGK11299.1 6406 12977 583 KGK11298.1 6407 12978 235 1751 II 3 EAR22192.1 6409 12980 606 EAR22191.1 6410 12981 237 1752 II 3 ERG19017.1 6412 12983 391 ERG19018.1 6413 12984 217 1753 II 3 ERG19053.1 6415 12986 599 ERG19054.1 6416 12987 235 1754 II 3 ERG37343.1 6418 12989 588 ERG37344.1 6419 12990 234 1755 II 3 KTD25444.1 6421 12992 494 KTD25443.1 6422 12993 230 1756 II 3 EER46085.1 6424 12995 586 EER46086.1 6425 12996 229 1757 II 3 AKZ71842.1 6427 12998 550 AKZ71841.1 6428 12999 235 1758 II 3 KJN72848.1 6430 13001 550 KJN72849.1 6431 13002 235 1759 II 3 KLQ05988.1 6433 13004 550 KLQ05987.1 6434 13005 235 1760 II 3 KHE02046.1 6436 13007 433 KHE02111.1 6437 13008 226 1761 II 3 KHN64404.1 6439 13010 433 KHN64740.1 6440 13011 226 1762 II 3 ACS83827.1 6442 13013 520 ACS83826.1 6443 13014 248 1763 II 3 EAS45749.1 6445 13016 585 EAS45750.1 6446 13017 237 1764 II 3 ALP65206.1 6448 13019 435 ALP66609.1 6449 13020 230 1765 II 3 AIO36173.1 6451 13022 445 AIO34939.1 6452 13023 230 1766 II 3 KTC93828.1 6454 13025 494 KTC93827.1 6455 13026 230 1767 II 3 KVP70159.1 6457 13028 435 KVP70160.1 6458 13029 232 1768 II 3 KVP49168.1 6460 13031 435 KVP49169.1 6461 13032 232 1769 II 3 KVQ79696.1 6463 13034 435 KVQ79697.1 6464 13035 232 1770 II 3 KVR10907.1 6466 13037 435 KVR10908.1 6467 13038 232 1771 II 3 KVR50011.1 6469 13040 435 KVR50012.1 6470 13041 232 1772 II 3 KVR54358.1 6472 13043 435 KVR54359.1 6473 13044 232 1773 II 3 KWB45018.1 6475 13046 435 KWB45017.1 6476 13047 232 1774 II 3 KWB78076.1 6478 13049 435 KWB78077.1 6479 13050 232 1775 II 3 KWD39079.1 6481 13052 435 KWD39080.1 6482 13053 232 1776 II 3 KWD33064.1 6484 13055 435 KWD33065.1 6485 13056 232 1777 II 3 KWD38753.1 6487 13058 435 KWD38754.1 6488 13059 232 1778 II 3 KWO93445.1 6490 13061 435 KWO93444.1 6491 13062 232 1779 II 3 KVX24372.1 6493 13064 435 KVX24373.1 6494 13065 232 1780 II 3 KGO04268.1 6496 13067 488 KGO04269.1 6497 13068 233 1781 II 3 ADE14195.1 6499 13070 606 ADE14194.1 6500 13071 237 1782 II 3 ADR35021.1 6502 13073 378 ADR35022.1 6503 13074 238 1783 II 3 EPF16739.1 6505 13076 435 EPF16738.1 6506 13077 226 1784 II 3 KYL32886.1 6508 13079 587 KYL32887.1 6509 13080 234 1785 II 3 ALS34707.1 6511 13082 588 ALS34708.1 6512 13083 232 1786 II 3 KOO13437.1 6514 13085 583 KOO13436.1 6515 13086 235 1787 II 3 KGA93591.1 6517 13088 387 KGA93590.1 6518 13089 238 1788 II 3 CCK76631.1 6520 13091 572 CCK76632.1 6521 13092 234 1789 II 3 CAV18530.1 6523 13094 590 CAV18531.1 6524 13095 236 1790 II 3 CEO93970.1 6526 13097 490 CEO93972.1 6527 13098 196 1791 II 3 CDT36105.1 6529 13100 567 CDT36097.1 6530 13101 233 1792 II 3 CDT66931.1 6532 13103 567 CDT66922.1 6533 13104 233 1793 II 3 EIY57316.1 6535 13106 529 EIY57317.1 6536 13107 233 1794 II 3 EPR32275.1 6538 13109 439 EPR32276.1 6539 13110 235 1795 II 3 ENO91777.1 6541 13112 532 ENO91778.1 6542 13113 243 1796 II 3 EAQ53529.1 6544 13115 519 EAQ53528.1 6545 13116 236 1797 II 3 GAA81805.1 6547 13118 588 GAA81804.1 6548 13119 232 1798 II 3 EEF80486.1 6550 13121 599 EEF80469.1 6551 13122 212 1799 II 3 KVA10031.1 6553 13124 435 KVA10030.1 6554 13125 230 1800 II 3 GAD76289.1 6556 13127 583 GAD76290.1 6557 13128 235 1801 II 3 EFM21230.1 6559 13130 550 EFM21229.1 6560 13131 235 1802 II 3 KJF90748.1 6562 13133 583 KJF90749.1 6563 13134 235 1803 II 3 KKB47519.1 6565 13136 508 KKB47518.1 6566 13137 233 1804 II 3 EIM72585.1 6568 13139 289 EIM72584.1 6569 13140 249 1805 II 3 EEX64653.1 6571 13142 414 EEX64652.1 6572 13143 217 1806 II 3 EEY99587.1 6574 13145 584 EEY99586.1 6575 13146 217 1807 II 3 EGW44491.1 6577 13148 425 EGW44490.1 6578 13149 236 1808 II 3 KHD25429.1 6580 13151 679 KHD25430.1 6581 13152 236 1809 II 3 GAL03971.1 6583 13154 658 GAL03972.1 6584 13155 235 1810 II 3 ELA08940.1 6586 13157 561 ELA08939.1 6587 13158 230 1811 II 3 AEH01975.1 6589 13160 407 AEH01976.1 6590 13161 234 1812 II 3 EKM24778.1 6592 13163 591 EKM24779.1 6593 13164 236 1813 II 3 EOD77073.1 6595 13166 583 EOD77074.1 6596 13167 236 1814 II 3 KEQ18612.1 6598 13169 675 KEQ18611.1 6599 13170 234 1815 II 3 EJF07133.1 6601 13172 511 EJF07137.1 6602 13173 245 1816 II 3 KWU01629.1 6604 13175 677 KWU01630.1 6605 13176 236 1817 II 3 KHL11033.1 6607 13178 435 KHL11032.1 6608 13179 230 1818 II 3 AIL32429.1 6610 13181 506 AIL32428.1 6611 13182 222 1819 II 3 KIM02579.1 6613 13184 399 KIM02580.1 6614 13185 230 1820 II 3 KIM12269.1 6616 13187 440 KIM12268.1 6617 13188 250 1821 II 3 EJU08777.1 6619 13190 659 EJU08778.1 6620 13191 234 1822 II 3 AJA69892.1 6622 13193 463 AJA69893.1 6623 13194 235 1823 II 3 KRG22676.1 6625 13196 497 KRG22677.1 6626 13197 214 1824 II 3 KLN64107.1 6628 13199 550 KLN64108.1 6629 13200 235 1825 II 3 KDM93486.1 6631 13202 560 KDM93485.1 6632 13203 235 1826 II 3 KLE39938.1 6634 13205 550 KLE39937.1 6635 13206 235 1827 II 3 KPZ54442.1 6637 13208 588 KPZ54443.1 6638 13209 232 1828 II 3 KQN43371.1 6640 13211 547 KQN43544.1 6641 13212 240 1829 II 3 CVJ63610.1 6643 13214 435 CVJ63623.1 6644 13215 230 1830 II 3 CVE17086.1 6646 13217 550 CVE17042.1 6647 13218 205 (Part C) Y AC ZorD ZorE V W X protein Z AA AB protein AD AE ZorD PRT SEQ DNA SEQ length ZorE PRT SEQ DNA SEQ length Genomic Start Genomic End AF 1 protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) Point Point comments 2 1103024 1107464 3 KGH31557.1 84 6655 1089 109913 117783 4 ABR83422.1 88 6659 1010 6232483 6240424 5 EIE46560.1 92 6663 1013 167614 175555 6 EKA35838.1 96 6667 1083 52101 59974 7 EKA51670.1 100 6671 1083 3200 11072 8 EOQ78911.1 104 6675 1083 9650 17440 9 4597 8758 10 ERY08920.1 111 6682 1013 714819 722760 11 ERY16787.1 115 6686 1083 5165403 5173276 12 ERY21331.1 119 6690 1013 1199237 1207178 13 ERV56554.1 123 6694 1013 739445 747386 14 ERX20608.1 127 6698 1083 1361333 1369206 15 ERX27341.1 131 6702 1083 19893 27765 16 ERZ22538.1 135 6706 1083 2803767 2811640 17 ERX75593.1 139 6710 1083 1559729 1567601 18 ESR70189.1 143 6714 1083 64238 72111 19 ETU86356.1 147 6718 1013 956562 964503 20 CDI94245.1 151 6722 1028 6519543 6527528 Additional ZorC homolog CDI94246.1 21 CDI95169.1 155 6726 1083 7388834 7396675 22 EVT82479.1 159 6730 782 1 7247 23 EYU03500.1 163 6734 1082 54121 61990 24 EZN45281.1 167 6738 1009 8398 16691 25 EZO27047.1 171 6742 1014 504264 512118 26 EZP05711.1 175 6746 1014 1929997 1937851 27 CDH74039.1 179 6750 1028 47360 55346 28 CDH70664.1 183 6754 1083 20547 28388 29 KEA10738.1 187 6758 1013 116482 124423 30 AJF50274.1 191 6762 1083 1683969 1691810 31 AKE69363.1 195 6766 1083 2967762 2975603 32 AKE72975.1 199 6770 1028 7120178 7128164 33 CRQ30613.1 203 6774 1028 10264 18250 34 CRQ14077.1 207 6778 1083 20601 28442 35 CRQ20861.1 211 6782 1028 21948 29934 36 CRP04479.1 215 6786 1083 2221 10062 37 CRQ05508.1 219 6790 1083 20602 28443 38 CRP93982.1 223 6794 1028 14375 22361 39 CRP94802.1 227 6798 1028 21977 29963 40 CRQ51017.1 231 6802 1083 7536 15377 41 CRS01084.1 235 6806 1028 19796 27782 42 CRX34597.1 239 6810 1028 21981 29967 43 CRX35808.1 243 6814 1083 7536 15377 44 CRN87050.1 247 6818 1083 7536 15377 45 CRQ28286.1 251 6822 1083 20602 28443 46 CRQ21590.1 255 6826 1028 19796 27782 47 CRN79674.1 259 6830 1028 19796 27782 48 CRO17354.1 263 6834 1083 7536 15377 49 CRW80513.1 267 6838 1028 1009 8995 50 CRW81768.1 271 6842 1083 3068 10909 51 CRS64331.1 275 6846 1083 7536 15377 52 CRS61286.1 279 6850 1028 21981 29967 53 CRX10264.1 283 6854 1083 7536 15377 54 CRX00531.1 287 6858 1028 21972 29958 55 CRW55874.1 291 6862 1083 7536 15377 56 CRX16408.1 295 6866 1028 10272 18258 57 CRP10908.1 299 6870 1028 19796 27782 58 CRP41378.1 303 6874 1083 20600 28441 59 CRP14671.1 307 6878 1028 21981 29967 60 CRP47678.1 311 6882 1083 7536 15377 61 CRO88182.1 315 6886 1083 7536 15377 62 CRO42689.1 319 6890 1028 21982 29968 63 CRN87527.1 323 6894 1083 7536 15377 64 CRN66270.1 327 6898 1028 19796 27782 65 CRP41135.1 331 6902 1028 19796 27782 66 CRP68434.1 335 6906 1083 7536 15377 67 CRP76218.1 339 6910 1028 21981 29967 68 CRQ24486.1 343 6914 1083 7536 15377 69 CRP82303.1 347 6918 1083 7536 15377 70 CRP60955.1 351 6922 1028 21979 29965 71 CRP29619.1 355 6926 1083 7536 15377 72 CRO50908.1 359 6930 1028 19796 27782 73 2197 6787 74 CRP88395.1 366 6937 1028 15384 23370 75 CRP42036.1 370 6941 1028 21981 29967 76 CRP91116.1 374 6945 1083 7536 15377 77 CRN61529.1 378 6949 1028 21982 29968 78 CRN91506.1 382 6953 1083 20602 28443 79 CRP44801.1 386 6957 1083 20602 28443 80 CRP16211.1 390 6961 1028 21981 29967 81 CRP57132.1 394 6965 1028 19796 27782 82 CRP83812.1 398 6969 1083 20602 28443 83 CRO13657.1 402 6973 1028 28606 36592 84 CRO55518.1 406 6977 1083 7536 15377 85 CRO41650.1 410 6981 1083 20602 28443 86 CRO12755.1 414 6985 1028 19796 27782 87 CRP86290.1 418 6989 1083 20602 28443 88 CRP43574.1 422 6993 1028 21972 29958 89 CRP83305.1 426 6997 1083 7536 15377 90 CRP15159.1 430 7001 1028 19797 27783 91 CRP60560.1 434 7005 1028 21977 29963 92 CRQ10764.1 438 7009 1083 7536 15377 93 CRP54752.1 442 7013 1083 7536 15377 94 CRP76522.1 446 7017 1028 19796 27782 95 CRP46003.1 450 7021 1083 20602 28443 96 CRP23116.1 454 7025 1028 21977 29963 97 CRP65472.1 458 7029 1028 19796 27782 98 CRP93795.1 462 7033 1083 7536 15377 99 CRQ27545.1 466 7037 1028 19797 27783 100 CRQ56549.1 470 7041 1083 7536 15377 101 CRP80501.1 474 7045 1083 20602 28443 102 CRP35990.1 478 7049 1028 21982 29968 103 CRO87201.1 482 7053 1028 19796 27782 104 CRP11419.1 486 7057 1083 7536 15377 105 CRP24877.1 490 7061 1083 7536 15377 106 CRO90725.1 494 7065 1028 19796 27782 107 CRP17797.1 498 7069 1083 7536 15377 108 CRO58922.1 502 7073 1028 19796 27782 109 CRP26962.1 506 7077 1028 21977 29963 110 CRP96154.1 510 7081 1083 5235 13076 111 CRN60218.1 514 7085 1028 19796 27782 112 CRO00192.1 518 7089 1083 7536 15377 113 CRO92517.1 522 7093 1083 7536 15377 114 CRO70260.1 526 7097 1028 19796 27782 115 CRP22828.1 530 7101 1028 21981 29967 116 CRP50508.1 534 7105 1083 7536 15377 117 CRO39287.1 538 7109 1083 20601 28442 118 CRO06853.1 542 7113 1028 19796 27782 119 CRP42088.1 546 7117 1083 20602 28443 120 CRP08999.1 550 7121 1028 21977 29963 121 CRQ56997.1 554 7125 1083 7536 15377 122 CRQ59380.1 558 7129 1028 19796 27782 123 CRQ91375.1 562 7133 1083 7536 15377 124 CRQ84097.1 566 7137 1028 21977 29963 125 CRQ52244.1 570 7141 1083 7536 15377 126 CRQ54306.1 574 7145 1028 19796 27782 127 CRQ62236.1 578 7149 1083 7536 15377 128 CRQ81684.1 582 7153 1028 21977 29963 129 CRQ17181.1 586 7157 1028 19796 27782 130 CRQ37577.1 589 7160 1083 20602 28443 131 CRQ86033.1 593 7164 1083 3165 11006 132 CRQ40649.1 597 7168 1028 21981 29967 133 CRQ91563.1 601 7172 1083 20602 28443 134 CRQ79048.1 605 7176 1028 21981 29967 135 CRR29633.1 609 7180 1083 7536 15377 136 CRR29050.1 613 7184 1028 10273 18259 137 CRR72814.1 617 7188 1028 19796 27782 138 CRR80212.1 621 7192 1083 7536 15377 139 CRR16565.1 625 7196 1083 20602 28443 140 CRR21548.1 629 7200 1028 21979 29965 141 CRQ92439.1 633 7204 1083 7536 15377 142 CRQ86092.1 637 7208 1028 19796 27782 143 CRQ59643.1 641 7212 1083 20602 28443 144 CRQ56267.1 645 7216 1028 19796 27782 145 CRR63880.1 649 7220 1083 20602 28443 146 CRR21712.1 653 7224 1028 21977 29963 147 2348 6938 148 CRP93286.1 660 7231 1028 15000 22986 149 CRR90653.1 664 7235 1028 19796 27782 150 CRS00769.1 668 7239 1083 20650 28491 151 CRR57278.1 672 7243 1028 21981 29967 152 CRR67560.1 676 7247 1083 20600 28441 153 CRR87246.1 680 7251 1028 21981 29967 154 CRS01368.1 684 7255 1083 20650 28491 155 CRX14802.1 688 7259 1083 20571 28412 156 CRX13614.1 692 7263 1028 19796 27782 157 CRX26810.1 696 7267 1028 10207 18193 158 20601 25191 159 CRP16606.1 703 7274 1028 21972 29958 160 CRP62133.1 707 7278 1083 7536 15377 161 CRO03492.1 711 7282 1028 21974 29960 162 CRO33372.1 715 7286 1083 7536 15377 163 CRS11153.1 719 7290 1028 21977 29963 164 CRS17556.1 723 7294 1083 7536 15377 165 CRR97375.1 727 7298 1028 19796 27782 166 CRS12921.1 731 7302 1083 20650 28491 167 CRP70784.1 735 7306 1028 19796 27782 168 CRO21080.1 739 7310 1083 7536 15377 169 CRO99381.1 743 7314 1028 19796 27782 170 CRP25040.1 747 7318 1083 7536 15377 171 CRP38642.1 751 7322 1083 7536 15377 172 CRP11550.1 755 7326 1028 21982 29968 173 CRP98584.1 759 7330 1083 20650 28491 174 CRP72862.1 763 7334 1028 21977 29963 175 CRX06581.1 767 7338 1028 19796 27782 176 CRX13436.1 771 7342 1083 20650 28491 177 CRR85682.1 775 7346 1028 21981 29967 178 CRR95301.1 779 7350 1083 7536 15377 179 CRR86731.1 783 7354 1083 7536 15377 180 CRR89302.1 787 7358 1028 19796 27782 181 CRS01767.1 791 7362 1028 19796 27782 182 CRS11319.1 795 7366 1083 7536 15377 183 CRR80885.1 799 7370 1028 21985 29971 184 CRR92362.1 803 7374 1083 7536 15377 185 CRR30192.1 807 7378 1083 7536 15377 186 CRS13888.1 811 7382 1028 19797 27783 187 CRS13748.1 815 7386 1083 7536 15377 188 CRR98713.1 819 7390 1028 19796 27782 189 CRS06172.1 823 7394 1028 21977 29963 190 CRS13985.1 827 7398 1083 20602 28443 191 CRW73996.1 831 7402 617 9779 16532 192 CRX24341.1 835 7406 1083 20602 28443 193 CRX24406.1 839 7410 1083 7536 15377 194 CRX17822.1 843 7414 1028 15348 23334 195 CRR62878.1 847 7418 1083 7536 15377 196 CRX06818.1 851 7422 1028 21984 29970 197 CRX13750.1 855 7426 1083 20602 28443 198 CRR17545.1 859 7430 1083 6790 14631 199 CRQ30075.1 863 7434 1028 10239 18225 200 CRR51884.1 867 7438 1083 7536 15377 201 CRQ97126.1 871 7442 1028 21982 29968 202 KQJ58849.1 875 7446 1012 96 8034 203 KRU98871.1 879 7450 1083 4551 12425 204 KRV03413.1 883 7454 1083 10551 18423 205 KRU83197.1 887 7458 1083 3589 11464 206 KRU92654.1 891 7462 1083 4551 12425 207 KSD25192.1 895 7466 1013 113233 121174 208 KSD74105.1 899 7470 1013 106671 114764 209 KSD60221.1 903 7474 1028 115376 123362 210 KSD87955.1 907 7478 1083 7720 15561 211 KSD88702.1 911 7482 1028 20150 28136 212 KSD50143.1 915 7486 1083 7720 15561 213 KSD56742.1 919 7490 1028 202494 210480 214 KSE06416.1 923 7494 1028 691615 699601 215 KSD97267.1 927 7498 1083 8459 16300 216 KSE55323.1 931 7502 1083 7720 15561 217 KSE57197.1 935 7506 1028 20032 28018 218 KSE67394.1 939 7510 1083 7720 15561 219 KSE22577.1 943 7514 1083 7720 15561 220 KSE22792.1 947 7518 1028 19980 27966 221 KSG55973.1 951 7522 1013 113233 121174 222 KSH11348.1 955 7526 1013 114765 122706 223 KSC39035.1 959 7530 1083 3729 11602 224 KSC26156.1 963 7534 1083 607382 615223 225 KSC92705.1 967 7538 1013 113233 121174 226 KSD59504.1 971 7542 1028 20152 28138 227 KSD58173.1 975 7546 1083 7720 15561 228 KSE83339.1 979 7550 1013 111993 119934 229 KSI47362.1 983 7554 1083 26399 34240 230 KSI07555.1 987 7558 1083 7720 15561 231 KSJ10821.1 991 7562 1028 28779 36765 232 KSJ26232.1 995 7566 1013 280039 287980 233 KSJ98816.1 999 7570 1083 178760 186632 234 KSK91644.1 1003 7574 1083 44277 52118 235 KSL06913.1 1007 7578 1083 6696 14569 236 KSM47318.1 1011 7582 1083 186153 194025 237 KSM41522.1 1015 7586 1013 174276 182369 238 KSN32762.1 1019 7590 1083 20786 28627 239 KSN33323.1 1023 7594 1028 20152 28138 240 KSN27909.1 1027 7598 1083 5029 12870 241 KSN02520.1 1031 7602 1014 88424 96278 242 KSN94645.1 1035 7606 1083 6822 14695 243 KSN59776.1 1039 7610 1028 19980 27966 244 KSN68238.1 1043 7614 1083 678802 686643 245 KSO78874.1 1047 7618 1083 6821 14694 246 KSO73923.1 1051 7622 1083 7720 15561 247 KSO74311.1 1055 7626 1028 28768 36754 248 KSO93084.1 1059 7630 1028 19851 27837 249 KSO91842.1 1063 7634 1083 7720 15561 250 KSP60334.1 1067 7638 1028 19084 27070 251 KSP82593.1 1071 7642 1009 65229 73525 252 KSQ11853.1 1075 7646 1083 262790 270663 253 KSN68772.1 1079 7650 1083 6822 14695 254 KSO40827.1 1083 7654 1013 176313 184406 255 KSQ48397.1 1087 7658 1028 29036 37022 256 KSQ47081.1 1091 7662 1083 7720 15561 257 KSQ03905.1 1095 7666 1028 29276 37262 258 KSQ01965.1 1099 7670 1083 7720 15561 259 KSR61591.1 1103 7674 1013 101987 110080 260 KSR90899.1 1107 7678 1013 112375 120316 261 KSR87676.1 1111 7682 1083 6822 14695 262 KSR56103.1 1115 7686 1083 7720 15561 263 KSR68840.1 1119 7690 1028 691615 699601 264 KSS83645.1 1123 7694 1028 28814 36800 265 KSS82294.1 1127 7698 1083 7720 15561 266 KSS65849.1 1131 7702 1083 7720 15561 267 KSS71071.1 1135 7706 1028 65766 73752 268 KSS83668.1 1139 7710 1083 7720 15561 269 KSS97186.1 1143 7714 1028 691552 699538 270 KSS68539.1 1147 7718 1083 7720 15561 271 KSS64136.1 1151 7722 1028 303502 311488 272 KST02404.1 1155 7726 1028 20083 28069 273 KST01503.1 1159 7730 1083 7720 15561 274 KST09050.1 1163 7734 1028 28768 36754 275 KST07353.1 1167 7738 1083 7719 15560 276 KSR39891.1 1171 7742 1028 123377 131363 277 KST03846.1 1175 7746 1083 7720 15561 278 KST05248.1 1179 7750 1028 28768 36754 279 KSS85818.1 1183 7754 1028 20152 28138 280 KSS83935.1 1187 7758 1083 7720 15561 281 KTF54399.1 1191 7762 1028 20040 28026 282 KTF49808.1 1195 7766 1083 7726 15567 283 KTK55769.1 1199 7770 964 5885944 5897844 284 ALZ13981.1 1203 7774 1009 3432864 3441160 285 ALY33853.1 1207 7778 1082 398410 406279 286 ALY39463.1 1211 7782 1083 155293 163134 287 ALY43154.1 1215 7786 1013 4323402 4331343 288 3032150 3036740 289 KWZ69448.1 1221 7792 1013 10132 18224 290 KXG16568.1 1225 7796 1013 153843 161784 291 KYO75363.1 1229 7800 1028 19761 27747 292 KIS48445.1 1232 7803 536 2364174 2369453 293 KVA56603.1 1236 7807 1198 199542 207683 294 KVC33768.1 1240 7811 860 118414 125547 295 AEV65171.1 1244 7815 1082 6013571 6021027 296 KGE64071.1 1248 7819 1082 75257 83079 297 KWV80503.1 1252 7823 1009 1368440 1376687 298 ABQ80735.1 1256 7827 1082 5169632 5177451 299 AFK68694.1 1260 7831 1083 1915596 1923415 300 EMR48533.1 1264 7835 1012 523291 531481 301 AGA73020.1 1268 7839 1095 2309435 2317296 302 KTC24574.1 1272 7843 1009 91397 99402 303 ABP79170.1 1276 7847 1012 1580205 1591257 Additional ZorC homolog ABP79169.1 304 AEA83400.1 1280 7851 1012 1567955 1576354 305 EHY79733.1 1284 7855 1012 65479 73878 306 AFM32809.1 1288 7859 1012 1676860 1685262 307 EWC39444.1 1292 7863 1083 336964 344689 308 EPL62185.1 1295 7866 1012 213132 221531 309 EPM44378.1 1299 7870 1082 14136 21754 310 EPN29006.1 1303 7874 177 667 5568 311 EPN47281.1 1307 7878 183 2221 7140 312 EPN38586.1 1311 7882 184 2215 7137 313 EPN31619.1 1315 7886 928 16485 30385 longer system - ZorD annotated manually 314 EPN22778.1 1319 7890 1082 16485 24103 315 EPN13935.1 1323 7894 1082 1746 9364 316 EPM64845.1 1327 7898 1082 677 8295 317 KFE44520.1 1331 7902 1082 131424 139246 318 KTC49635.1 1335 7906 1082 2323 10154 319 AAM40750.1 1339 7910 1065 1688713 1696136 320 AAY49834.1 1343 7914 1065 3347629 3355052 321 AKS18352.1 1347 7918 641 3124168 3131591 322 ACP24375.1 1351 7922 1072 631821 638722 323 41480 45803 324 KUM27285.1 1358 7929 970 191211 198647 325 CDZ72585.1 1362 7933 1033 110001 117427 326 ACK84142.1 1366 7937 1033 3482023 3489384 327 CAH15305.1 1370 7941 1128 1195308 1202768 328 CCD05129.1 1374 7945 1128 1099307 1106704 329 CZL99023.1 1378 7949 1128 8467 15864 330 CZN28496.1 1382 7953 1128 8467 15864 331 CZP40238.1 1386 7957 1128 8467 15864 332 CZP31232.1 1390 7961 1128 37176 44573 333 CZP19776.1 1394 7965 1128 8467 15864 334 CZN56551.1 1398 7969 1128 8467 15864 335 CZN21905.1 1402 7973 1128 8467 15864 336 CZP49331.1 1406 7977 1128 8467 15864 337 CZP61158.1 1410 7981 1128 37472 44869 338 CZN58367.1 1414 7985 1128 37472 44869 339 CZO62490.1 1418 7989 1128 37166 44563 340 CZO85517.1 1422 7993 1128 37472 44869 341 CZN18828.1 1426 7997 1128 37183 44580 342 CZO33299.1 1430 8001 1128 37166 44563 343 CZN48822.1 1434 8005 1128 148086 155483 344 CZO35416.1 1438 8009 1128 37456 44853 345 CZL93564.1 1442 8013 1128 131968 139365 346 CZH31874.1 1446 8017 1128 8467 15864 347 CZG09164.1 1450 8021 1129 167538 174938 348 CZO58072.1 1454 8025 1128 8467 15864 349 CZP31158.1 1458 8029 1128 677 8074 350 CZP25160.1 1462 8033 1128 37183 44580 351 CZO87108.1 1466 8037 1128 37166 44563 352 CZP12686.1 1470 8041 1128 37456 44853 353 CZO76680.1 1474 8045 1128 8438 15835 354 CZM75981.1 1478 8049 1128 8467 15864 355 CZM80502.1 1482 8053 1128 37456 44853 356 CZO03187.1 1486 8057 1128 37166 44563 357 CZO99623.1 1490 8061 1128 8467 15864 358 CZN77929.1 1494 8065 1128 8467 15864 359 CZO69927.1 1498 8069 1128 37456 44853 360 CZO98759.1 1502 8073 1128 37472 44869 361 CZN87263.1 1506 8077 1128 37472 44869 362 CZO28947.1 1510 8081 1128 8467 15864 363 CZO58257.1 1514 8085 1128 37166 44563 364 CZM99444.1 1518 8089 1128 8467 15864 365 CZN97615.1 1522 8093 1128 37183 44580 366 CZN56267.1 1526 8097 1128 148086 155483 367 CZP07331.1 1530 8101 1128 8467 15864 368 CZP63613.1 1534 8105 1128 37440 44837 369 CZM58531.1 1538 8109 1128 8490 15887 370 CZN95629.1 1542 8113 1128 8441 15838 371 CZN53220.1 1546 8117 1128 37166 44563 372 CZN21830.1 1550 8121 1128 37472 44869 373 CZO53942.1 1554 8125 1128 8467 15864 374 CZO83111.1 1558 8129 1128 37472 44869 375 CZM80568.1 1562 8133 1128 8467 15864 376 CZN76211.1 1566 8137 1128 8467 15864 377 CZN17285.1 1570 8141 1128 37472 44869 378 CZN08698.1 1574 8145 1128 8472 15869 379 CZN07686.1 1578 8149 1128 8467 15864 380 CZN27100.1 1582 8153 1128 37456 44853 381 CZO91499.1 1586 8157 1128 8467 15864 382 CZN16051.1 1590 8161 1128 8467 15864 383 CZN38967.1 1594 8165 1128 8467 15864 384 CZI18617.1 1598 8169 1128 8467 15864 385 CZL86257.1 1602 8173 1128 8467 15864 386 CZM41687.1 1606 8177 1128 37166 44563 387 CZM78452.1 1610 8181 1128 8467 15864 388 CZM56718.1 1614 8185 1128 8467 15864 389 CZM62068.1 1618 8189 1128 37472 44869 390 CZM06036.1 1622 8193 1128 8467 15864 391 CZM98015.1 1626 8197 1128 37456 44853 392 CZN32097.1 1630 8201 1128 37183 44580 393 CZN27816.1 1634 8205 1128 37183 44580 394 CZM96679.1 1638 8209 1128 8467 15864 395 CZN17375.1 1642 8213 1128 37166 44563 396 CZN17807.1 1646 8217 1128 8467 15864 397 CZN51221.1 1650 8221 1128 8467 15864 398 CZN80042.1 1654 8225 1128 8467 15864 399 CZN83589.1 1658 8229 1128 37183 44580 400 CZN87872.1 1662 8233 1128 8408 15805 401 CZN94066.1 1666 8237 1128 37183 44580 402 CZO07198.1 1670 8241 1128 37510 44907 403 CZO11915.1 1674 8245 1128 8467 15864 404 CZO09323.1 1678 8249 1128 8467 15864 405 CZN87980.1 1682 8253 1128 8500 15897 406 CZO32215.1 1686 8257 1128 37183 44580 407 CZO07237.1 1690 8261 1128 8467 15864 408 CZO04106.1 1694 8265 1128 8472 15869 409 CZN90727.1 1698 8269 1128 37183 44580 410 CZP18336.1 1702 8273 1128 8467 15864 411 CZP26215.1 1706 8277 1128 8467 15864 412 CZP25407.1 1710 8281 1128 8467 15864 413 CZN32022.1 1714 8285 1128 8467 15864 414 CZO49291.1 1718 8289 1128 37183 44580 415 CZO32798.1 1722 8293 1128 8467 15864 416 CZO62433.1 1726 8297 1128 37166 44563 417 CZO58360.1 1730 8301 1128 37456 44853 418 CZO85770.1 1734 8305 1128 8467 15864 419 CZP51187.1 1738 8309 1128 37440 44837 420 CZO57236.1 1742 8313 1128 148086 155483 421 CZO45203.1 1746 8317 1128 8467 15864 422 CZO91301.1 1750 8321 1128 37472 44869 423 CZN53915.1 1754 8325 1128 37183 44580 424 CZN51502.1 1758 8329 1128 37440 44837 425 CZO76121.1 1762 8333 1128 37183 44580 426 CZR30106.1 1766 8337 1128 435 7832 427 KTD18863.1 1770 8341 1125 828 8210 428 5615 9801 429 2638 6824 430 EMT94536.1 1780 8351 1067 7878 15300 431 1 3978 432 EMU02179.1 1787 8358 1067 2863 10285 433 EXB30085.1 1791 8362 1067 38504 45935 434 EXB35596.1 1795 8366 1067 190269 197700 435 EXB05629.1 1799 8370 1067 29426 36857 436 EXB92792.1 1803 8374 1067 600238 607669 437 EXB73474.1 1807 8378 1067 187080 194511 438 EXE59931.1 1811 8382 1067 198540 205983 439 EXE71115.1 1815 8386 717 5498 11879 440 KCX96447.1 1819 8390 1067 1709 9140 441 KHO17161.1 1823 8394 1067 15406 22828 442 KLT90614.1 1827 8398 1067 4629 12051 443 KRI43457.1 1831 8402 1068 19553 26974 444 KRJ35149.1 1835 8406 1067 9974 17405 445 AMN00866.1 1839 8410 1070 1372997 1380433 446 KDB58589.1 1843 8414 1300 192445 200726 447 KDD86367.1 1847 8418 1293 46614 54916 448 ACV76376.1 1851 8422 1034 19297 26557 449 AEI38593.1 1855 8426 1034 2402 9662 450 KTJ39357.1 1859 8430 1081 145121 152985 451 KUQ09079.1 1863 8434 1079 68203 76536 452 KYN64183.1 1867 8438 1042 702125 709468 453 AFP68827.1 1871 8442 1080 1024953 1032814 Additional ZorC homolog AFP68828.1 454 ESS59418.1 1875 8446 1080 17627 25491 455 EUL88644.1 1879 8450 78 3297579 3302381 456 KDF77541.1 1883 8454 78 65448 70250 457 AIX56043.1 1887 8458 1080 3771498 3779361 458 KJW77577.1 1891 8462 1079 1673 10006 459 KJX05613.1 1895 8466 1079 1673 10006 460 KPS87961.1 1898 8469 1035 1 5522 461 KRS24834.1 1901 8472 1080 6925 12583 462 KUQ03192.1 1905 8476 1080 42478 50340 463 BAK13747.1 1909 8480 1042 4393137 4400480 464 CCF11171.1 1913 8484 1042 3979011 3986353 465 AFR04656.1 1917 8488 1080 3684004 3691868 466 KHS69300.1 1921 8492 1080 46628 54492 467 KHT02548.1 1925 8496 1080 45831 53695 468 KHT03966.1 1929 8500 1080 47097 54961 469 ABV17208.1 1933 8504 1080 299412 307306 470 EIP59430.1 1937 8508 220 26726 32010 471 EIN79899.1 1941 8512 1080 3501 11365 472 EKK37355.1 1945 8516 1080 1607 9471 473 EKW33216.1 1949 8520 1080 2019 9883 474 ELW24561.1 1953 8524 1080 660 8524 475 ELV55441.1 1957 8528 1080 1478 9222 476 ELV58669.1 1961 8532 1080 664 8528 477 ELV27734.1 1965 8536 1080 64453 72317 478 ELE34847.1 1969 8540 1080 52842 60706 479 ELF60010.1 1973 8544 1084 586259 594135 480 ENC42749.1 1977 8548 1080 33688 41552 481 ENC49342.1 1981 8552 1080 27211 35075 482 ENC65369.1 1985 8556 1080 2255 9929 483 ENC60224.1 1989 8560 1080 27020 34884 484 ENC64691.1 1993 8564 1080 26939 34803 485 ENC77388.1 1997 8568 1080 26972 34836 486 ENC83661.1 2001 8572 1080 27153 35017 487 ENC86712.1 2005 8576 1080 27619 35483 488 ENE16671.1 2009 8580 1080 1801 9665 489 ENC77072.1 2013 8584 1080 27211 35075 490 EOQ56567.1 2017 8588 1079 636603 644930 491 ERB06044.1 2021 8592 1080 39898 47762 492 EQV94535.1 2025 8596 1079 962513 970840 493 EQV96724.1 2029 8600 1084 653799 661675 494 ERB23475.1 2033 8604 1080 1404484 1412348 495 ERA25536.1 2037 8608 1080 337494 345358 496 ERB97872.1 2041 8612 1080 2550 10414 497 ERB87463.1 2045 8616 1080 835 8699 498 ERB73279.1 2049 8620 1080 2197 10061 499 ERB84450.1 2053 8624 1080 5599 13463 500 ERD03125.1 2057 8628 1080 834 8698 501 ERD02931.1 2060 8631 111 2176 3966 502 ERD21115.1 2064 8635 1080 1073 8937 503 ERD19181.1 2068 8639 1080 2495 10359 504 ERD72946.1 2072 8643 1080 1149 9013 505 ERD66559.1 2076 8647 1080 600 8464 506 ERD75975.1 2080 8651 1080 945 8809 507 ERD83531.1 2084 8655 1080 658 8522 508 ERD92969.1 2088 8659 1080 1952 9816 509 ERD99053.1 2092 8663 1080 1388 9252 510 ERD98124.1 2096 8667 1080 1079 8943 511 AHM42042.1 2100 8671 1084 488627 496503 512 AHM46677.1 2104 8675 1084 496169 504045 513 AHM51232.1 2108 8679 1084 497566 505442 514 EYD87638.1 2112 8683 1079 41244 49112 515 EYW22453.1 2116 8687 1080 168471 176335 516 EYW31321.1 2120 8691 1080 1923 9787 517 EYV86552.1 2124 8695 1080 1922 9786 518 EYW71959.1 2128 8699 1080 26412 34276 519 EYW62760.1 2132 8703 1080 26412 34276 520 EYW60241.1 2136 8707 1080 1922 9786 521 EYW56541.1 2140 8711 1080 2143 10007 522 EYW47183.1 2144 8715 1080 3218 11082 523 EYW47503.1 2148 8719 1080 3222 11086 524 EYW43759.1 2152 8723 1080 26417 34281 525 EYW40417.1 2156 8727 1080 26412 34276 526 EYW30109.1 2160 8731 1080 1922 9786 527 EYY79854.1 2164 8735 1080 34684 42548 528 EZB10670.1 2168 8739 1080 2019 9883 529 EZE32943.1 2172 8743 1080 26396 34260 530 KDZ82664.1 2176 8747 1080 17465 25329 531 KHG75766.1 2180 8751 1080 581 8445 532 KHG79500.1 2184 8755 1080 921 8785 533 KOZ37429.1 2188 8759 1080 64411 72275 534 KOZ53463.1 2192 8763 1080 4236 12100 535 KOZ92706.1 2196 8767 1080 6079 13943 536 CTV73579.1 2200 8771 1080 14419 22283 537 CTY75874.1 2204 8775 1080 70490 78354 538 KPH47565.1 2208 8779 1080 596 8460 539 KPH29391.1 2212 8783 1080 26567 34431 540 KPO40057.1 2216 8787 1080 26789 34653 541 KPP40487.1 2220 8791 1080 27360 35224 542 KQI75361.1 2224 8795 1080 53820 61684 543 KST33202.1 2228 8799 1080 27013 34877 544 KUV50203.1 2232 8803 1084 16306 24182 545 KUT58776.1 2236 8807 1080 39315 47179 546 KXL70400.1 2240 8811 1080 1546 9410 547 KXM39828.1 2244 8815 1080 6312 14176 548 KXM53393.1 2248 8819 1080 2592 10456 549 KXN00951.1 2252 8823 1080 4479 12343 550 KXQ06779.1 2256 8827 1080 75 7939 551 KXQ54356.1 2260 8831 1080 314 8178 552 KXR15703.1 2264 8835 1080 50549 58413 553 KXQ76403.1 2268 8839 1080 522 8386 554 KXQ99886.1 2272 8843 1080 312 8176 555 KXR88731.1 2276 8847 1080 238975 246839 556 KXR78154.1 2280 8851 1080 8890 16754 557 EGC96563.1 2284 8855 1080 3169949 3177774 558 GAB54116.1 2288 8859 627 9182 15685 559 EHM44107.1 2292 8863 1080 4368 12232 560 EKB79931.1 2296 8867 1080 833707 841571 561 EKB69924.1 2300 8871 1082 141821 149691 562 EMH92795.1 2304 8875 470 56292 64102 563 EMH90434.1 2308 8879 1082 2827 10697 564 EPA89043.1 2312 8883 1080 31904 39684 565 EPO98322.1 2316 8887 1080 3559 11339 566 ERN60894.1 2320 8891 1080 58696 66506 567 ESM66667.1 2324 8895 1080 3031589 3039453 568 7279 11205 569 EWE84470.1 2331 8902 1082 156425 164295 570 EWE89861.1 2335 8906 1080 59506 67370 571 EZQ78639.1 2339 8910 1080 56522 64386 572 EZR23961.1 2343 8914 1080 56535 64399 573 KDK71113.1 2347 8918 1080 56471 64335 574 KDL50058.1 2351 8922 1080 102416 110280 575 KEF24234.1 2355 8926 1080 298318 306182 576 AIG86118.1 2359 8930 1080 2499874 2507684 577 AIT02044.1 2363 8934 1080 2796337 2804201 578 KGK55642.1 2367 8938 1080 4976163 4984027 579 KHF56288.1 2371 8942 1080 56658 64522 580 CEO84462.1 2375 8946 1080 56654 64518 581 KLZ85287.1 2379 8950 1080 299767 307631 582 KME72629.1 2383 8954 1082 341221 349091 583 KMG80270.1 2387 8958 1080 56631 64495 584 KMH33141.1 2391 8962 1080 298484 306348 585 KMH45009.1 2395 8966 1080 298657 306521 586 KMH61877.1 2399 8970 1080 298657 306521 587 KMH74808.1 2403 8974 1080 298345 306209 588 KMH92294.1 2407 8978 1080 298488 306352 589 KMH82196.1 2411 8982 1082 33540 41410 590 KMI35041.1 2415 8986 1082 411073 418943 591 KMJ00754.1 2419 8990 1080 298445 306309 592 KMX47012.1 2423 8994 1080 159517 167381 593 ALH85686.1 2427 8998 1080 2553997 2561861 594 KPR26028.1 2431 9002 1080 257164 265028 595 KSW78887.1 2435 9006 1077 127014 135431 596 ALP77149.1 2439 9010 1080 1308820 1316684 597 KSZ25784.1 2443 9014 1080 284411 292275 598 AMA16469.1 2447 9018 1080 2542623 2550487 599 KXO21004.1 2451 9022 1080 28886 36750 600 KYL54016.1 2455 9026 1080 10919 18783 601 KYM08972.1 2459 9030 1080 14860 22724 602 KYL42997.1 2463 9034 1080 14860 22724 603 KYL42678.1 2467 9038 1080 14870 22734 604 KYL71100.1 2471 9042 1080 10922 18786 605 KYL53996.1 2475 9046 1080 10920 18784 606 KYM33516.1 2479 9050 1080 284951 292815 607 KYL73346.1 2483 9054 1080 14860 22724 608 KYL53876.1 2487 9058 1080 14862 22726 609 KYM21788.1 2491 9062 1080 14861 22725 610 KYM07146.1 2495 9066 1080 10923 18787 611 KYM09276.1 2499 9070 1080 10920 18784 612 KYL81722.1 2503 9074 1080 14861 22725 613 KYL90350.1 2507 9078 1080 14861 22725 614 KYM24954.1 2511 9082 1080 10920 18784 615 CQJ58396.1 2515 9086 1042 442633 449979 616 CFV22979.1 2519 9090 1042 128423 135769 617 CNI05674.1 2523 9094 1042 382852 390198 618 AHV33809.1 2527 9098 1019 445565 453509 619 KOG92698.1 2531 9102 1019 891037 898981 620 KRW58409.1 2535 9106 1254 282454 290695 621 AAF94909.1 2539 9110 940 1898009 1905745 622 ABQ21454.1 2543 9114 1146 1451122 1458848 623 ACP06006.1 2547 9118 1149 1845143 1852878 624 ACP09871.1 2551 9122 1146 1982541 1990267 625 1741763 1746058 626 EFH78552.1 2558 9129 1149 406663 414398 627 EAZ72426.1 2561 9132 1149 102894 108516 628 EAZ78570.1 2565 9136 1149 39155 46890 629 AET26856.1 2569 9140 1149 1369410 1377145 630 KNH51116.1 2573 9144 1149 31898 39633 631 KNA61361.1 2577 9148 1149 426524 434259 632 EEO08428.1 2581 9152 932 320173 327908 633 EEO16531.1 2585 9156 932 1108223 1115958 634 EEO20562.1 2589 9160 932 1025633 1033368 635 EET92690.1 2593 9164 1149 31076 38811 636 EEY40705.1 2597 9168 1149 318366 326101 637 EEY47280.1 2601 9172 1149 293048 300726 638 EGQ97274.1 2605 9176 1149 315513 323191 639 EGQ98248.1 2609 9180 1149 315860 323595 640 EGS48432.1 2613 9184 1149 2498 10233 641 EGS47643.1 2617 9188 1149 159058 166793 642 EGS47804.1 2621 9192 1149 159009 166744 643 EGS62505.1 2625 9196 1149 159057 166735 644 EGS70772.1 2629 9200 1149 159054 166789 645 EHH71588.1 2633 9204 1149 87128 94863 646 EHH83255.1 2637 9208 1149 313471 321206 647 EHH87247.1 2641 9212 1149 159015 166750 648 EHH97389.1 2645 9216 1149 315855 323590 649 EHI04570.1 2649 9220 1149 318768 326503 650 EHI04038.1 2653 9224 1149 1 6847 Additional ZorC homolog EHI04039.1 651 EHH99554.1 2657 9228 1149 159021 166756 652 EHH93198.1 2661 9232 1149 159052 166787 653 EHH82142.1 2665 9236 1149 159011 166746 654 EHH72364.1 2669 9240 1149 159013 166748 655 EHH76757.1 2673 9244 1149 159078 166813 656 AFC58579.1 2677 9248 1149 1944318 1952053 657 EJH73149.1 2681 9252 1149 159078 166813 658 EJH69789.1 2685 9256 1149 159086 166821 659 EJH28003.1 2689 9260 1149 159398 167133 660 EJH27515.1 2693 9264 1149 159452 167187 661 EJH29360.1 2697 9268 1149 314088 321823 662 EJH38297.1 2701 9272 1149 311261 318996 663 EJH70290.1 2705 9276 1149 159175 166910 664 EJH44247.1 2709 9280 1149 313098 320833 665 EJH55110.1 2713 9284 1149 1125543 1133278 666 EJH55326.1 2717 9288 1149 315841 323576 667 EJH83355.1 2721 9292 1149 360461 368196 668 EJH85690.1 2725 9296 1149 159055 166790 669 EJH80826.1 2729 9300 1149 159198 166933 670 EJH40242.1 2733 9304 1149 349947 357682 671 EKG51166.1 2737 9308 1149 159143 166878 672 EKG45545.1 2741 9312 1149 159094 166829 673 EKG69361.1 2745 9316 1149 159020 166755 674 EKG78204.1 2749 9320 1149 360413 368148 675 EKG79524.1 2753 9324 1149 159046 166724 676 EKG89062.1 2757 9328 1149 159114 166792 677 EKK80940.1 2761 9332 1149 152818 160553 678 EKK97420.1 2765 9336 1149 159065 166743 679 EKL07614.1 2769 9340 932 2711 8667 680 EKL26686.1 2773 9344 1149 159013 166748 681 EKL25947.1 2777 9348 1149 159005 166740 682 EKL86047.1 2781 9352 1149 159001 166736 683 EKM09898.1 2785 9356 1149 159050 166785 684 EKL86443.1 2789 9360 1149 159016 166694 685 EKM18413.1 2793 9364 1149 159007 166685 686 ELT24498.1 2797 9368 1149 318101 325779 687 ELT39814.1 2801 9372 1149 318117 325852 688 ELS74164.1 2805 9376 1149 159011 166746 689 ELS81595.1 2809 9380 1149 159013 166691 690 ELS88994.1 2813 9384 1149 159009 166744 691 ELS96625.1 2817 9388 1149 159067 166802 692 ELT03891.1 2821 9392 1149 159007 166742 693 ELT10274.1 2825 9396 1149 159009 166687 694 ELT32498.1 2829 9400 1149 159005 166740 695 EMB02077.1 2833 9404 1149 2023763 2031498 696 EMP84511.1 2837 9408 1149 159020 166755 697 EMP97714.1 2841 9412 1146 159712 167381 698 EMP95635.1 2845 9416 1149 159039 166774 699 EMQ03271.1 2849 9420 1149 159039 166774 700 EMQ04746.1 2853 9424 1149 159015 166693 701 EMQ11840.1 2857 9428 1149 159023 166701 702 EMQ11494.1 2861 9432 1149 159013 166748 703 EMQ16254.1 2865 9436 1149 159021 166699 704 EMQ22000.1 2869 9440 1149 159017 166752 705 EMQ27290.1 2873 9444 1149 130877 138612 706 EMQ26217.1 2877 9448 1149 130881 138616 707 EMQ32317.1 2881 9452 1149 159017 166752 708 EMQ37897.1 2885 9456 1149 159026 166761 709 EMQ51392.1 2889 9460 1149 159021 166756 710 EMQ53993.1 2893 9464 1149 159019 166754 711 EMQ39195.1 2897 9468 1149 159017 166695 712 EMQ68293.1 2901 9472 1149 159017 166695 713 EMQ62926.1 2905 9476 1149 159012 166690 714 EMQ43436.1 2909 9480 1149 159013 166748 715 EMQ47712.1 2913 9484 1149 159021 166756 716 EWM32708.1 2917 9488 1149 130877 138612 717 KEA49017.1 2921 9492 1149 158099 165834 718 327156 331451 719 KEH80155.1 2928 9499 1149 31003 38738 720 KEH82626.1 2932 9503 1149 31003 38738 721 5628 9512 722 1490 5374 723 KFE03686.1 2942 9513 1149 158948 166626 724 KFE20273.1 2946 9517 1149 31824 39502 725 KFZ34212.1 2950 9521 1149 158938 166673 726 AIT29753.1 2954 9525 1149 1367243 1374978 727 KHE18841.1 2958 9529 1149 115674 123409 728 KHE21919.1 2962 9533 1149 30978 38713 729 BAP03189.1 2966 9537 1149 1752968 1760703 730 KJD16374.1 2970 9541 1149 31764 39499 731 KJJ52417.1 2974 9545 1149 311822 319557 732 KJJ54926.1 2978 9549 1149 311849 319584 733 KJR76010.1 2982 9553 1149 158920 166655 734 KJS92994.1 2986 9557 1146 159627 167353 735 AKA00222.1 2990 9561 1149 1981293 1989028 736 KJW14524.1 2994 9565 1149 22906 30641 737 KJX83384.1 2998 9569 1149 30976 38711 738 KKP13600.1 3002 9573 1149 311137 318815 739 KKP11540.1 3006 9577 1149 159049 166784 740 KKP10400.1 3010 9581 1149 31066 38801 741 AKO75283.1 3014 9585 1149 1873149 1880884 742 CSC37318.1 3017 9588 650 33349 39027 743 CRZ83750.1 3021 9592 1149 323105 330857 744 CSE02169.1 3025 9596 1149 310728 318406 745 CRZ49585.1 3029 9600 1149 310734 318412 746 CSC16469.1 3033 9604 1149 31070 38748 747 CSB69205.1 3037 9608 1149 31121 38824 748 CSA28505.1 3041 9612 1146 31851 39520 749 CSB84087.1 3045 9616 657 135830 143726 750 CSB63121.1 3049 9620 1149 16865 24600 751 CSA19206.1 3053 9624 1149 31070 38748 752 CSD58145.1 3057 9628 1149 31082 38760 753 166125 170429 754 CSB47757.1 3064 9635 1149 31012 38747 755 CSA30951.1 3068 9639 1146 31850 39519 756 CSB56119.1 3072 9643 1149 31737 39415 757 CRZ98351.1 3076 9647 1149 365059 372737 758 CSA01334.1 3080 9651 1149 17713 25417 759 CSB97529.1 3084 9655 1149 159188 166980 760 CSC01752.1 3088 9659 1149 159378 167056 761 CRZ46109.1 3092 9663 565 31477 39390 762 CSA07846.1 3096 9667 1149 361547 369225 763 CSC23719.1 3100 9671 1149 159382 167060 764 31152 35390 765 CSE01568.1 3107 9678 1149 31080 38758 766 CSA08428.1 3110 9681 1149 111629 119351 767 CRZ45164.1 3114 9685 1149 360008 367686 768 CSA07018.1 3118 9689 1149 31070 38748 769 CSA08758.1 3122 9693 1149 311375 319053 770 CSA15617.1 3126 9697 1151 118328 126027 771 CSA74554.1 3130 9701 421 31048 38213 772 CSB88604.1 3133 9704 650 202946 208618 773 CSC80153.1 3137 9708 1149 158978 166656 774 CSB83805.1 3141 9712 1146 33081 40750 775 CSB56566.1 3144 9715 902 33322 38967 776 CSC85417.1 3148 9719 1149 49583 57261 777 CSB86278.1 3152 9723 327 79066 86933 778 CSD13130.1 3156 9727 1149 31083 38761 779 CSD79384.1 3160 9731 1149 158961 166639 780 CSD86903.1 3164 9735 1149 311074 318752 781 CSA39718.1 3168 9739 1149 31077 38755 782 CSC76671.1 3172 9743 1149 159318 166996 783 CSA42827.1 3176 9747 1149 17305 24983 784 CSA52168.1 3180 9751 1149 31069 38747 785 CSD31842.1 3184 9755 1149 310993 318671 786 CSD17868.1 3188 9759 1149 31086 38764 787 CSD38685.1 3192 9763 1149 310723 318401 788 CSA26333.1 3196 9767 1149 159373 167051 789 CSA45918.1 3200 9771 1149 31045 38780 790 CSD96324.1 3204 9775 1149 31082 38760 791 CSA54003.1 3208 9779 1149 159718 167396 792 CSC37805.1 3211 9782 233 32052 39355 793 CSA88183.1 3215 9786 413 33049 40215 794 CSA15198.1 3219 9790 496 31993 39834 795 CSC98525.1 3222 9793 327 34368 40014 796 CRZ48549.1 3226 9797 1157 160331 168052 797 CSB25047.1 3229 9800 435 34141 39160 Additional ZorC homolog CSB25035.1 798 CSD98674.1 3233 9804 1149 360011 367689 799 CSA36985.1 3236 9807 650 33493 39175 800 32082 36377 801 CSD70475.1 3243 9814 1149 31083 38761 802 CSD13890.1 3246 9817 657 459 6109 803 CSD31883.1 3250 9821 1149 31084 38762 804 CSE18808.1 3254 9825 1149 158956 166634 805 CSD93195.1 3258 9829 1149 31084 38762 806 CSA21132.1 3262 9833 1149 159994 167672 807 CSA44698.1 3266 9837 1146 160570 168345 808 CSD30628.1 3270 9841 1149 207665 215343 809 CSD92385.1 3274 9845 1149 310736 318414 810 CSD99314.1 3278 9849 1149 31871 39549 811 CSA22955.1 3282 9853 1149 159775 167453 812 CSA49214.1 3286 9857 366 31257 39041 813 CSC63613.1 3290 9861 650 9409 16634 814 CRZ49258.1 3294 9865 1149 33478 41156 815 CSC03090.1 3298 9869 1149 124696 132431 816 CSD87248.1 3302 9873 1149 310735 318413 817 CSD21248.1 3306 9877 1149 388072 395750 818 31912 36177 819 CSA26743.1 3313 9884 1149 159358 167090 820 CSB50330.1 3317 9888 1149 668438 676116 821 CSB24819.1 3321 9892 233 32013 39918 822 CSB68067.1 3325 9896 650 31070 38775 823 CSB16272.1 3329 9900 915 333817 341563 824 CRZ89203.1 3333 9904 1149 310756 318434 825 CSD99947.1 3337 9908 1149 31875 39553 826 CSA40881.1 3341 9912 1149 31156 38834 827 CSC19347.1 3345 9916 1149 310775 318453 828 CSD27143.1 3349 9920 1149 158972 166650 829 CSA25008.1 3353 9924 1149 159300 166978 830 CSD33007.1 3357 9928 1149 26879 34089 831 CSD25943.1 3361 9932 1149 311072 318750 832 CSD37937.1 3365 9936 1149 310737 318415 833 CSD14752.1 3369 9940 1149 31084 38762 834 162427 166665 835 CSD47052.1 3376 9947 1149 31087 38765 836 CRZ80385.1 3380 9951 1149 313075 320840 837 CSC19211.1 3384 9955 1149 168078 175756 838 CSA23993.1 3388 9959 1146 160208 167877 839 CSA08080.1 3392 9963 1149 31862 39540 840 CSB55683.1 3396 9967 797 278315 286089 841 CSA25866.1 3400 9971 1149 31850 39528 842 CSD34664.1 3404 9975 1149 310731 318409 843 CSC58104.1 3408 9979 1146 63231 70982 844 CSA23928.1 3412 9983 817 31012 38784 845 CSB25832.1 3416 9987 239 4488 12028 846 CSD08425.1 3420 9991 1149 310632 318310 847 CSD25614.1 3424 9995 1149 31075 38753 848 CSD28595.1 3428 9999 1149 31079 38757 849 CSA45233.1 3432 10003 1146 160096 167765 850 CSD82509.1 3436 10007 1149 360009 367687 851 CSC20734.1 3440 10011 1149 159381 167059 852 CSC43362.1 3444 10015 902 63491 71271 853 CSC06923.1 3448 10019 1149 31021 38756 854 CSB50482.1 3452 10023 1149 177974 185709 855 CSE01128.1 3456 10027 1149 310979 318657 856 CSB99370.1 3460 10031 1149 31077 38755 857 KOY92949.1 3463 10034 1149 212064 217686 858 KOY92341.1 3467 10038 1149 159277 167012 859 KOY97237.1 3471 10042 1149 12401 20136 860 KOZ01029.1 3475 10046 1149 211986 219721 861 KPA03324.1 3479 10050 1149 360412 368147 862 ALJ63819.1 3483 10054 1149 1178223 1185958 863 KTL56322.1 3487 10058 1146 324982 332708 864 KUO35495.1 3490 10061 1149 158946 164568 865 30980 35275 866 KUP86909.1 3497 10068 1149 30979 38714 867 KUY44288.1 3501 10072 1149 30985 38720 868 KVI44902.1 3505 10076 1149 343662 351397 869 KWW48036.1 3509 10080 1149 31013 38748 870 EIG23745.1 3513 10084 999 100888 108391 871 KGQ46275.1 3517 10088 1033 80629 88171 872 KGQ51099.1 3521 10092 1033 57777 65324 873 KGQ65034.1 3525 10096 1033 22663 30210 874 ACX76636.1 3529 10100 1045 3759682 3766672 875 ADL25841.1 3533 10104 1045 363595 370585 876 EEO43109.1 3537 10108 1163 2128114 2135123 877 EHG17833.2 3541 10112 1163 2126049 2133058 878 ERT42788.1 3545 10116 1163 50872 58025 879 KGE62644.1 3549 10120 1162 397783 404930 880 EFE87097.1 3553 10124 1166 770761 777911 881 ABM29950.1 3557 10128 1131 3435271 3442881 882 ADB47621.1 3561 10132 969 1390210 1397088 883 ADE85049.1 3565 10136 1030 1376580 1384055 884 ETD02076.1 3569 10140 1030 56033 63508 885 ETD86669.1 3573 10144 1029 52380 59851 886 ETD77750.1 3577 10148 1030 226246 233721 887 ETE54108.1 3581 10152 1030 56001 63476 888 130723 134953 889 KFI23092.1 3588 10159 1150 38137 45876 890 KMY56663.1 3592 10163 874 14053 20516 891 KMY64906.1 3596 10167 874 14041 20504 892 KYD35335.1 3600 10171 860 7802 14262 893 GAD13405.1 3604 10175 860 26441 32340 894 EMT39962.1 3607 10178 931 147491 153762 895 189427 193818 896 EKF49052.1 3613 10184 832 59928 66237 Gene EKF49051.1 897 BAL95141.1 3617 10188 1287 1873936 1882199 898 KTC75264.1 3621 10192 574 10108 15843 899 EFF49968.1 3625 10196 221 66300 71522 900 ABU75894.1 3629 10200 1080 573812 581682 901 EGL73324.1 3632 10203 1080 1391 7059 902 3085383 3088601 903 CCK02757.1 3639 10210 1080 1992732 2000383 904 CCO48378.1 3643 10214 1149 351151 358883 905 CCK80599.1 3647 10218 1149 2847791 2855375 906 KGD34413.1 3651 10222 961 604039 612320 907 KGS74755.1 3655 10226 1253 44290 52434 908 KGW09385.1 3659 10230 1257 3032122 3040259 909 KGX47861.1 3663 10234 881 14326 22286 910 KGX39521.1 3667 10238 1290 2107525 2115821 911 CPH56590.1 3671 10242 1258 30629 39310 912 KSB52474.1 3675 10246 1080 185515 193379 913 AEF17802.1 3678 10249 930 1842826 1849094 914 ENW17899.1 3682 10253 1067 59747 65556 915 ABO66650.1 3686 10257 874 1352626 1359020 916 2415017 2419718 917 ACS21191.1 3693 10264 1291 4851523 4859825 918 1418094 1422180 919 EET81940.1 3700 10271 1067 99524 106967 920 ENU31374.1 3704 10275 1067 191572 197836 921 ALA59736.1 3708 10279 1244 3145019 3153095 922 AGB41058.1 3712 10283 1172 1097125 1104635 923 AEI93762.1 3716 10287 1058 1813459 1820361 924 CCU78670.1 3720 10291 939 785072 791847 925 ERG17895.1 3724 10295 1152 22799 30533 926 ALF60589.1 3728 10299 1075 2700909 2708350 927 AEM78248.1 3731 10302 931 840832 847102 928 EFV93690.1 3735 10306 1109 3038718 3046540 929 KRI14523.1 3739 10310 1068 149243 156664 930 AEJ38285.1 3743 10314 908 54168 60713 931 AEW03627.1 3747 10318 908 54408 60953 932 KFX14694.1 3751 10322 1080 19071 26935 933 KKW93257.1 3755 10326 1274 127747 135625 934 KVX03058.1 3759 10330 1007 67700 75395 935 KJM54477.1 3763 10334 1079 76651 84984 936 KLF88327.1 3767 10338 1080 57307 65172 937 KLG16013.1 3771 10342 1079 39524 47386 938 KLP43533.1 3775 10346 1080 57204 65069 939 KTK05047.1 3779 10350 1079 80895 89228 940 KTJ30245.1 3783 10354 1079 10225 18087 941 KTI23425.1 3787 10358 1079 288377 296710 942 AKL12334.1 3791 10362 1080 2215142 2223007 943 1907323 1912534 944 4313226 4317455 945 AJG24949.1 3801 10372 1288 3725247 3733546 946 8581 12602 947 3803428 3807386 948 AJE15426.1 3811 10382 1083 2249957 2257829 949 869 4909 950 EHO11884.1 3818 10389 1089 1267870 1274810 951 CAY72980.1 3822 10393 1081 680846 688730 952 CAX54370.1 3826 10397 1081 680824 688708 953 AGA90550.1 3830 10401 966 1965119 1972029 954 CUH46422.1 3834 10405 1042 70525 78149 955 AMO80631.1 3838 10409 1082 1259869 1267751 956 AGP47381.1 3842 10413 1042 4767443 4774474 957 KIN78153.1 3846 10417 1032 1354 9819 958 AMS40140.1 3850 10421 1000 1255627 1262896 959 ABK50006.1 3854 10425 1148 4544823 4552542 960 CAP40553.1 3858 10429 1246 241480 249729 961 ERI29927.1 3862 10433 501 71963 77851 962 EPZ87097.1 3866 10437 1253 687271 695415 963 KKI79918.1 3870 10441 1221 2182489 2190633 964 KVD94187.1 3874 10445 1253 12091 20284 965 KVT83336.1 3878 10449 1288 78180 86479 966 KVW62587.1 3882 10453 1288 3262 11561 967 4322511 4327158 968 ADD01960.1 3888 10459 931 714604 720875 969 AEG43647.1 3892 10463 1005 936023 943033 970 ACY51402.1 3896 10467 1149 1803262 1810997 971 EDN58082.1 3900 10471 1149 98875 106610 972 AIR88229.1 3904 10475 1082 609086 616908 973 ABC30367.1 3908 10479 1003 3762737 3770015 974 ALV90956.1 3912 10483 1083 367721 375594 975 EDL49430.1 3916 10487 1270 30300 38162 976 CAQ68799.1 3920 10491 1097 858781 866499 977 BAH37230.1 3924 10495 1150 220564 228082 978 KGU86623.1 3928 10499 1082 16946 24768 979 AFE11186.1 3931 10502 858 3778679 3785329 980 EHJ60588.1 3935 10506 1271 82585 90450 981 AIT79634.1 3939 10510 1271 1565213 1573078 982 1479567 1484303 983 ADP10189.1 3946 10517 1081 558724 566608 984 ABM39547.1 3950 10521 1259 145574 154312 985 EIL89343.1 3954 10525 1080 112461 119985 986 GAC31731.1 3958 10529 1156 31246 38984 987 2144456 2148780 988 KFK00372.1 3965 10536 1080 91457 99321 989 CDT04312.1 3969 10540 1148 483924 491657 990 CDT11724.1 3973 10544 1148 106517 114250 991 KXV35458.1 3977 10548 1028 11957 19254 992 EAT06419.1 3981 10552 952 18325 29199 993 BAQ44677.1 3985 10556 1033 1242440 1249828 994 CCE22487.1 3989 10560 1003 864299 871500 995 CEG51219.1 3993 10564 1012 170325 178733 996 EJI89229.1 3997 10568 390 559407 565225 997 KDE37031.1 4001 10572 1081 305795 313692 998 2602720 2606694 999 GAE46383.1 4007 10578 810 27879 34299 1000 EAQ47299.1 4011 10582 1032 3319389 3327854 1001 EDP59416.1 4015 10586 1149 217393 225128 1002 CUH52009.1 4019 10590 1071 33047 40102 1003 CVK01153.1 4023 10594 1256 2323 11357 1004 ABE74737.1 4027 10598 1075 1137832 1145312 1005 CCW17773.1 4030 10601 1251 59 7588 1006 4213818 4218168 1007 AFU46479.1 4037 10608 1093 3031899 3040069 1008 EZI30548.1 4041 10612 1082 320199 328021 1009 1174385 1178645 1010 GAA77180.1 4048 10619 1151 153172 160898 1011 AMK16853.1 4052 10623 1074 479754 487343 1012 ADQ06818.1 4055 10626 939 1109840 1116255 1013 EFN90476.1 4059 10630 1090 8688 15379 1014 KXB76240.1 4062 10633 255 20 2822 1015 EPR18408.1 4066 10637 441 4420 10039 1016 KMO18104.1 4070 10641 968 1639 9617 1017 3802 7852 1018 ACT17073.1 4077 10648 1248 1186285 1194417 1019 KMW37146.1 4081 10652 916 352471 359778 1020 CUB00796.1 4084 10655 1032 1448 6835 1021 ADJ28734.1 4088 10659 1145 2071841 2079565 1022 AJR24434.1 4091 10662 1074 2738468 2744069 1023 AJR25290.1 4095 10666 1073 3840140 3847708 1024 EHO63913.1 4099 10670 1088 191966 200316 1025 KVM95914.1 4103 10674 1250 212451 220642 1026 EDY06974.1 4107 10678 874 313023 319483 1027 2634211 2638780 1028 EHR42624.1 4114 10685 986 67071 74599 1029 EHD22820.1 4118 10689 1083 3735867 3743740 1030 CRI66751.1 4122 10693 1249 5085246 5093439 1031 EFY05646.1 4126 10697 1109 5476 13083 1032 EKN30944.1 4130 10701 916 354487 361794 1033 KPL51800.1 4134 10705 1004 1329326 1336639 1034 AMN39056.1 4137 10708 960 660425 667875 1035 KMV29897.1 4141 10712 927 126899 133697 1036 CCA91257.1 4145 10716 1170 303090 310618 1037 CCA92390.1 4149 10720 1271 1576101 1583966 1038 ADE38424.1 4153 10724 1130 185251 192804 1039 EPR27901.1 4157 10728 666 4547 11006 1040 KYC33909.1 4161 10732 1073 68665 76233 1041 3008592 3012561 1042 EPR43454.1 4168 10739 962 39663 46452 1043 ESU31840.1 4171 10742 886 2112774 2119197 1044 KHJ69398.1 4175 10746 1083 29299 37172 1045 ERO56338.1 4179 10750 1080 712736 720606 1046 KHN63197.1 4183 10754 1081 41108 48981 1047 24422 28518 1048 CUB04081.1 4190 10761 1008 169304 176741 1049 EJM18416.1 4194 10765 1082 19009 26828 1050 EUB73629.1 4198 10769 1009 891473 899518 1051 80 4289 1052 EOU44973.1 4205 10776 1079 2232245 2240572 1053 ELC22343.1 4209 10780 1079 132985 141312 1054 EOU82995.1 4213 10784 1079 1010570 1018897 1055 KXU33091.1 4217 10788 1073 97745 105313 1056 EOV44199.1 4221 10792 1079 2185792 2194119 1057 EOQ55530.1 4225 10796 1080 932985 940849 1058 EOV91300.1 4229 10800 1079 1475831 1484158 1059 EOW68212.1 4233 10804 1079 141883 150210 1060 AFY17879.1 4237 10808 1011 795376 803717 1061 KHK57377.1 4241 10812 1254 222685 230903 1062 ENW78278.1 4245 10816 1067 453952 461376 1063 EME68213.1 4249 10820 1120 587 8575 1064 CDE94531.1 4253 10824 972 1395 8284 1065 CDA50131.1 4257 10828 1097 3567 10917 1066 ESQ90331.1 4261 10832 1186 26132 33751 1067 ESQ74517.1 4265 10836 1252 23941 31878 1068 AII86802.1 4269 10840 1040 1362274 1370579 1069 KPQ04146.1 4273 10844 1149 804600 812315 1070 CUS49189.1 4277 10848 1149 2278030 2285745 1071 ESN27962.1 4281 10852 1080 61729 69537 1072 EPJ56198.1 4285 10856 994 22834 30573 1073 EQA99139.1 4289 10860 1250 233840 241719 1074 KMS61418.1 4293 10864 1250 3101463 3109342 1075 AGT31735.1 4297 10868 865 1327845 1334314 1076 AIY65735.1 4301 10872 1152 2507239 2514925 1077 KXW55385.1 4305 10876 1331 74261 82426 1078 AKU92630.1 4309 10880 920 3541455 3548134 1079 1 3561 1080 ERS83849.1 4315 10886 545 18505 26132 1081 KXU87123.1 4319 10890 1257 16810 25813 1082 KLU37748.1 4323 10894 1284 146865 155158 1083 EUC70009.1 4327 10898 1004 47366 54537 1084 EXI82586.1 4331 10902 1250 64911 73149 1085 KAK42946.1 4335 10906 1102 16857 25146 1086 BAO84443.1 4339 10910 1255 2386040 2394279 1087 CQR46608.1 4342 10913 898 914451 920975 1088 BAP87808.1 4346 10917 1256 715557 723918 1089 KDP87794.1 4350 10921 1097 19414 27256 1090 KQB03826.1 4354 10925 1149 16315 24050 1091 KQA99547.1 4358 10929 1149 159021 166756 1092 KEY85733.1 4362 10933 1082 94535 102357 1093 GAK41826.1 4366 10937 917 154548 161205 1094 KVV58317.1 4370 10941 1263 7829 16059 1095 KVX28282.1 4374 10945 1263 7829 16059 1096 KVZ97544.1 4378 10949 1250 209019 217210 1097 AJY51018.1 4382 10953 1010 2719272 2726819 1098 CDX33072.1 4386 10957 992 46644 54080 1099 CDX43769.1 4390 10961 992 2178 9614 1100 KJS80659.1 4393 10964 1169 21617 29198 1101 KGD90265.1 4397 10968 1293 461343 469645 1102 9785 13551 1103 KOC90085.1 4404 10975 1083 30118 37991 1104 KOC94081.1 4408 10979 1083 18469 26342 1105 KHF78366.1 4412 10983 1069 824611 832051 1106 KQB52479.1 4416 10987 1082 8344 16187 1107 AJP47986.1 4419 10990 1254 1006536 1012681 1108 KIN89384.1 4423 10994 1285 719621 727970 1109 ALQ39735.1 4427 10998 1163 878815 885968 1110 KIQ83918.1 4431 11002 1078 96014 103978 1111 KRP95694.1 4435 11006 1082 120090 127912 1112 3688839 3693414 1113 318 5435 1114 KJM39256.1 4445 11016 1080 95946 103809 1115 KJJ99148.1 4449 11020 1260 335865 344079 1116 KJQ91386.1 4453 11024 1149 23951 31686 1117 KJQ87532.1 4457 11028 1149 23951 31686 1118 AKI01766.1 4461 11032 989 3205142 3212616 1119 KMP10825.1 4464 11035 1132 4141 11432 1120 KJS25179.1 4468 11039 1012 393 8801 1121 KJS49373.1 4471 11042 1169 1742 9323 1122 KLG11563.1 4475 11046 1079 101392 109725 1123 KLP25068.1 4479 11050 1080 12174 20036 1124 KLG16382.1 4483 11054 1080 92870 100733 1125 AKQ40861.1 4487 11058 1243 103859 111640 1126 KLR33908.1 4491 11062 1080 7456 15318 1127 KLQ90826.1 4495 11066 1080 420860 428722 1128 KYO07693.1 4499 11070 1079 361776 370109 1129 KYO16911.1 4502 11073 1080 24041 29699 1130 KLP47186.1 4506 11077 1080 39512 47374 1131 ALE53301.1 4510 11081 1252 36044 44241 1132 KQB93620.1 4514 11085 874 20482 26942 1133 AMN49380.1 4518 11089 1075 1279035 1286515 1134 3339822 3344259 1135 ALK96266.1 4525 11096 1284 1851643 1859936 1136 CUJ89784.1 4529 11100 1071 341420 348475 1137 CUJ83699.1 4533 11104 1039 311766 319390 1138 CUQ65731.1 4537 11108 1151 722567 729986 1139 KVV05823.1 4541 11112 1082 20533 28381 1140 KVV04343.1 4545 11116 1082 212447 220295 1141 KUO77798.1 4549 11120 1163 3229 10766 1142 KQM30741.1 4553 11124 1069 115202 122116 1143 KQM97535.1 4557 11128 1194 10557 18537 1144 KQN80960.1 4561 11132 1069 115205 122119 1145 KQQ29439.1 4565 11136 1033 213672 221015 1146 KQR49973.1 4569 11140 1250 159043 167267 1147 618525 622872 1148 KQS63849.1 4576 11147 1033 214815 222241 1149 KQV35759.1 4580 11151 1033 269085 276511 1150 KQY95045.1 4584 11155 1228 46871 54637 1151 KRD25373.1 4588 11159 1093 92331 100492 1152 KRD25866.1 4592 11163 1033 269071 276497 1153 KQV20176.1 4596 11167 1084 52687 60515 1154 KQX34250.1 4600 11171 1028 21428 28723 1155 KRE22553.1 4604 11175 999 7778 15050 1156 KRA26259.1 4608 11179 1082 142278 150100 1157 KRA28531.1 4612 11183 1228 295879 303645 1158 KRB49803.1 4616 11187 988 113257 120693 1159 KQC46107.1 4620 11191 874 19282 25742 1160 KWV49699.1 4624 11195 1032 46982 54421 1161 KUI99565.1 4628 11199 1156 1381229 1388527 1162 KTG21221.1 4632 11203 1007 2662 10353 1163 CVJ90715.1 4636 11207 1285 15727 24792 1164 CVK24351.1 4640 11211 1264 173387 182161 1165 CVK22607.1 4644 11215 1094 247062 254978 1166 CVK27721.1 4648 11219 1104 11000 19159 1167 CVJ14724.1 4652 11223 1257 373326 382397 1168 CVJ96960.1 4656 11227 1256 4116 13150 1169 KXS40894.1 4660 11231 781 1 6250 1170 KXW57566.1 4664 11235 1236 203 8225 1171 EJO46333.1 4668 11239 1079 3283 11091 1172 EPY95206.1 4672 11243 1079 81138 89471 1173 EUL64245.1 4676 11247 1079 52392 60200 1174 AMQ20315.1 4680 11251 874 858032 864492 1175 ADB42632.1 4683 11254 260 34303 37171 1176 EIA72759.1 4686 11257 272 4981 7798 1177 EIA87027.1 4689 11260 272 587 3404 1178 EIA94949.1 4692 11263 272 4929 7746 1179 EIA95447.1 4695 11266 272 4929 7746 1180 KQH60906.1 4698 11269 272 4977 7794 1181 KQI25490.1 4701 11272 272 6992 9809 1182 KQI25382.1 4704 11275 272 29293 32110 1183 KRS58893.1 4707 11278 272 205116 207933 1184 KRS89291.1 4710 11281 272 37988 40802 1185 KEA44660.1 4713 11284 258 75386 78313 1186 ALX12000.1 4716 11287 282 2362582 2365410 1187 AMB80663.1 4719 11290 171 3818332 3821205 1188 CZG58405.1 4722 11293 288 228584 231634 1189 CZH63846.1 4725 11296 288 299658 302708 1190 CZG92852.1 4728 11299 288 132992 136042 1191 CZI24994.1 4731 11302 288 5076 8126 1192 CZI29056.1 4734 11305 288 236475 239525 1193 CZH75430.1 4737 11308 288 4977 8027 1194 CZI28436.1 4740 11311 288 236475 239525 1195 CZQ90608.1 4743 11314 288 5076 8126 1196 EEZ95916.1 4746 11317 270 1176272 1179193 1197 ADG61930.1 4749 11320 238 1638409 1641357 1198 EGE12535.1 4752 11323 283 142451 145399 1199 EGE10943.1 4755 11326 283 32251 35199 1200 EGE11784.1 4758 11329 238 35082 38030 1201 EGE15773.1 4761 11332 283 36412 38991 1202 EGE17283.1 4764 11335 283 104584 107532 1203 EGE18523.1 4767 11338 283 113565 116513 1204 EGE26178.1 4770 11341 283 113528 116215 1205 EGE24865.1 4773 11344 283 113550 116498 1206 EKF83141.1 4776 11347 283 182847 185795 1207 AIT43972.1 4779 11350 283 1706599 1709286 1208 ALD78150.1 4782 11353 363 3528333 3531638 1209 KJI56240.1 4785 11356 363 155926 159387 1210 KKW50396.1 4788 11359 286 1 2089 1211 KFF70138.1 4791 11362 291 156818 159810 1212 KHS98347.1 4794 11365 291 92311 95303 1213 AAG59480.1 4797 11368 367 5390202 5393675 1214 BAB38679.1 4800 11371 367 5360199 5363672 1215 ACA79492.1 4803 11374 367 4265907 4269380 1216 ACB17260.1 4806 11377 367 4909284 4912757 1217 ACI34823.1 4809 11380 367 5433847 5437320 1218 ACT75060.1 4812 11383 367 5389908 5393381 1219 ADD59515.1 4815 11386 367 5198464 5201937 1220 EEC29617.1 4818 11389 367 1434820 1438293 1221 EFK27046.1 4821 11392 367 3332 6805 1222 EDU34130.1 4824 11395 367 92585 96058 1223 EDU54254.1 4827 11398 367 93693 97166 1224 EDU68785.1 4830 11401 367 71232 74705 1225 EDU76194.1 4833 11404 367 110915 114388 1226 EDU82467.1 4836 11407 367 309575 313048 1227 EDU87384.1 4839 11410 367 111793 115266 1228 EDU93251.1 4842 11413 367 312441 315914 1229 EDU97861.1 4845 11416 367 75960 79433 1230 EGI28990.1 4848 11419 367 292706 296178 1231 EDZ76317.1 4851 11422 367 2709358 2712831 1232 EDZ82369.1 4854 11425 367 2577686 2581159 1233 EDZ88717.1 4857 11428 367 3697436 3700909 1234 EFX08671.1 4860 11431 367 283864 287337 1235 EFX13460.1 4863 11434 367 289307 292780 1236 EFX18237.1 4866 11437 367 289258 292731 1237 EFX28076.1 4869 11440 367 211056 214373 1238 EFX32589.1 4872 11443 367 18337 21654 1239 EGD70491.1 4875 11446 367 274421 277894 1240 EGD69131.1 4878 11449 367 361430 364903 1241 EFW65236.1 4881 11452 367 470631 474104 1242 AEZ43445.1 4884 11455 367 5125498 5128971 1243 EHU86057.1 4887 11458 367 77320 80793 1244 EHU89502.1 4890 11461 367 311953 315268 1245 EHV18497.1 4893 11464 367 37259 40576 1246 EHV31799.1 4896 11467 367 307976 311449 1247 EHV46591.1 4899 11470 367 161927 165244 1248 EIF87144.1 4902 11473 367 447700 451173 1249 AFJ31991.1 4905 11476 367 5247976 5251449 1250 EIN15907.1 4908 11479 367 9700 13173 1251 EIP63614.1 4911 11482 367 76951 80424 1252 EIP71436.1 4914 11485 367 10354 13827 1253 EIO79098.1 4917 11488 351 77077 80550 1254 EIN94506.1 4920 11491 367 76794 80267 1255 EIO32393.1 4923 11494 367 78914 82387 1256 EIO45814.1 4926 11497 367 241456 244929 1257 EIO63773.1 4929 11500 367 250314 253787 1258 EIO69655.1 4932 11503 367 10239 13712 1259 EIO86632.1 4935 11506 367 250688 254161 1260 EIP72923.1 4938 11509 367 9692 13165 1261 EIP72311.1 4941 11512 367 26220 29693 1262 EIP50027.1 4944 11515 367 26239 29712 1263 EIP49011.1 4947 11518 367 9686 13159 1264 EIP40252.1 4950 11521 367 9696 13169 1265 EIP35337.1 4953 11524 367 26235 29708 1266 EIP27296.1 4956 11527 367 23530 26709 1267 EIP38851.1 4959 11530 367 75543 79016 1268 EIP33940.1 4962 11533 367 9690 13163 1269 EIP10351.1 4965 11536 367 9692 13165 1270 EIP05659.1 4968 11539 367 7027 10500 1271 EIP03401.1 4971 11542 367 1558 4737 1272 EIO92489.1 4974 11545 367 26262 29735 1273 EIO87488.1 4977 11548 367 26302 29775 1274 EIN16731.1 4980 11551 367 9693 13166 1275 EIN15643.1 4983 11554 367 3483 6956 1276 EIN33047.1 4986 11557 367 9701 13174 1277 EIO86815.1 4989 11560 39 1 1412 1278 EIO65805.1 4992 11563 367 9691 13164 1279 EIO79511.1 4995 11566 162 3560 6418 1280 EIO49184.1 4998 11569 367 9700 13173 1281 EIO29775.1 5001 11572 367 1758 5231 1282 EIO24810.1 5004 11575 105 9701 12947 1283 EIO11191.1 5007 11578 367 9700 13173 1284 EIO07423.1 5010 11581 367 9694 13167 1285 EIO07038.1 5013 11584 367 9698 13171 1286 EIO09723.1 5016 11587 367 9696 13169 1287 EIN89792.1 5019 11590 367 112339 115812 1288 EIN88208.1 5022 11593 367 26149 29622 1289 EIN85417.1 5025 11596 367 9700 13173 1290 EIN69800.1 5028 11599 367 9696 13169 1291 EIN65411.1 5031 11602 367 9693 13166 1292 EIN68644.1 5034 11605 367 9696 13169 1293 EIN52364.1 5037 11608 367 9696 13169 1294 EIN49110.1 5040 11611 367 26227 29700 1295 EIN33834.1 5043 11614 367 9692 13165 1296 EIN35237.1 5046 11617 367 29162 32635 1297 EKG95779.1 5049 11620 367 3432 6905 1298 EKH07678.1 5052 11623 367 364931 368404 1299 EKJ54993.1 5055 11626 367 9700 13173 1300 EKJ48079.1 5058 11629 367 9705 13178 1301 EKJ52900.1 5061 11632 367 9688 13161 1302 EKJ36496.1 5064 11635 367 9694 13167 1303 EKJ47660.1 5067 11638 367 9700 13173 1304 EKJ36025.1 5070 11641 367 9698 13171 1305 EKJ20860.1 5073 11644 367 9698 13015 1306 EKJ19822.1 5076 11647 367 9694 13167 1307 EKJ00849.1 5079 11650 367 23510 26983 1308 EKJ92950.1 5082 11653 367 112428 115901 1309 EKJ05366.1 5085 11656 367 26146 29619 1310 EKI82673.1 5088 11659 367 26272 29745 1311 EKI91868.1 5091 11662 367 75553 79026 1312 EKI72761.1 5094 11665 351 26220 29693 1313 EKI64836.1 5097 11668 367 26230 29703 1314 EKI59121.1 5100 11671 367 9693 13166 1315 EKI57124.1 5103 11674 351 9695 13168 1316 EKI46664.1 5106 11677 351 9693 13166 1317 EKI33384.1 5109 11680 367 9694 13011 1318 EKH20915.1 5112 11683 367 9699 13172 1319 EKH25284.1 5115 11686 367 328332 331805 1320 EKH13350.1 5118 11689 367 9702 13175 1321 EKH36313.1 5121 11692 367 9704 13177 1322 EKH26861.1 5124 11695 367 115401 118874 1323 EKH48827.1 5127 11698 367 9700 13173 1324 EKH53676.1 5130 11701 367 115476 118949 1325 EKH61521.1 5133 11704 367 9699 13172 1326 EKH63163.1 5136 11707 367 248863 252336 1327 EKH71773.1 5139 11710 367 9699 13172 1328 EKH63846.1 5142 11713 367 9702 13175 1329 EKH83482.1 5145 11716 367 9704 13177 1330 EKH87898.1 5148 11719 367 9702 13175 1331 EKH95563.1 5151 11722 367 9704 13177 1332 EKI01260.1 5154 11725 367 115400 118873 1333 EKI02729.1 5157 11728 367 67397 70870 1334 EKH96736.1 5160 11731 367 9432 12905 1335 EKI03038.1 5163 11734 367 9488 12961 1336 EKI06057.1 5166 11737 367 66831 70304 1337 EKK37392.1 5169 11740 367 9688 13161 1338 EKK71764.1 5172 11743 367 68104 71577 1339 EKK91181.1 5175 11746 367 6240 9713 1340 EKK36880.1 5178 11749 367 9701 13174 1341 EKK37975.1 5181 11752 351 9698 13171 1342 EKK61087.1 5184 11755 367 9682 13155 1343 EKK52330.1 5187 11758 367 9684 13157 1344 EKK67937.1 5190 11761 367 75545 79018 1345 EKK62289.1 5193 11764 367 75520 78993 1346 EKK87665.1 5196 11767 367 77628 81101 1347 EKV88763.1 5199 11770 367 3477 6950 1348 EKV85096.1 5202 11773 367 9696 13169 1349 EKV70650.1 5205 11776 367 9694 13167 1350 EKW05769.1 5208 11779 367 75769 79242 1351 EKV91511.1 5211 11782 367 3479 6952 1352 EKW03278.1 5214 11785 367 9690 13163 1353 EKW04231.1 5217 11788 367 9698 13171 1354 EKW19022.1 5220 11791 367 9700 13173 1355 EKW08485.1 5223 11794 367 9700 13173 1356 EKW71369.1 5226 11797 351 6744 10217 1357 EKW96653.1 5229 11800 367 75179 78652 1358 EKW96258.1 5232 11803 367 9885 13358 1359 EKW76354.1 5235 11806 367 29183 32500 1360 EKW75840.1 5238 11809 367 9851 13324 1361 EKW68010.1 5241 11812 367 9909 13382 1362 EKW74813.1 5244 11815 351 9682 13155 1363 EKW43904.1 5247 11818 367 79656 83129 1364 EKW70673.1 5250 11821 367 75702 79175 1365 EKW38122.1 5253 11824 367 9692 13165 1366 EKW21069.1 5256 11827 367 3479 6358 1367 EKW36076.1 5259 11830 105 26295 29801 1368 EKW36716.1 5262 11833 351 9702 13175 1369 EKW51351.1 5265 11836 367 9684 13157 1370 EKY34589.1 5268 11839 367 9698 13171 1371 EKY34727.1 5271 11842 367 9696 13013 1372 ELI49198.1 5274 11845 367 723 4196 1373 ELV23652.1 5277 11848 367 19030 22503 1374 ELV30874.1 5280 11851 367 3059 6532 1375 ELV62889.1 5283 11854 367 29755 33072 1376 ELV61720.1 5286 11857 367 352 3504 1377 ELV63257.1 5289 11860 367 482 3955 1378 ELV91640.1 5292 11863 367 26114 29587 1379 ELV93147.1 5295 11866 367 2876 6349 1380 ELW21803.1 5298 11869 367 19055 22528 1381 ELW24260.1 5301 11872 367 355 3828 1382 ELW27705.1 5304 11875 367 9838 13311 1383 ELW23229.1 5307 11878 367 342 3815 1384 ELW28314.1 5310 11881 367 9868 13341 1385 ELW46368.1 5313 11884 367 9890 13363 1386 ELV14531.1 5316 11887 367 362 3835 1387 ELV31269.1 5319 11890 367 26209 29682 1388 ELV35520.1 5322 11893 367 26046 29519 1389 ELV44401.1 5325 11896 367 1488 4667 1390 ELV47161.1 5328 11899 367 9825 13298 1391 ELV76551.1 5331 11902 367 18805 22278 1392 ELV98803.1 5334 11905 367 9948 13421 1393 ELV75965.1 5337 11908 367 9795 13268 1394 ELV90960.1 5340 11911 367 351 3824 1395 ELW12422.1 5343 11914 367 9877 13350 1396 ELV15306.1 5346 11917 351 9689 13162 1397 EMR91944.1 5349 11920 367 5144 8617 1398 EMS03598.1 5352 11923 367 7561 11034 1399 ELE41778.1 5355 11926 365 3624619 3628086 1400 ELF28430.1 5358 11929 367 2021904 2025377 1401 ELG08153.1 5361 11932 367 1531417 1534890 1402 ELH63188.1 5364 11935 367 388742 392215 1403 ENE27217.1 5367 11938 172 180 3065 1404 EQO57390.1 5370 11941 367 620369 623842 1405 EQO66401.1 5373 11944 367 1177818 1181291 1406 EQT31737.1 5376 11947 367 348841 352314 1407 EQT84556.1 5379 11950 367 632377 635850 1408 ERB08802.1 5382 11953 367 3407072 3410545 1409 ERB13354.1 5385 11956 367 322637 326110 1410 ERC00100.1 5388 11959 367 77309 80782 1411 ERB68139.1 5391 11962 367 75975 79448 1412 ERB88971.1 5394 11965 367 9811 13284 1413 ERC15172.1 5397 11968 367 9856 13329 1414 ERB79213.1 5400 11971 367 77187 80660 1415 ERB91730.1 5403 11974 367 77192 80665 1416 ERC08309.1 5406 11977 367 9951 13424 1417 ERC32303.1 5409 11980 367 9828 13301 1418 ERC25307.1 5412 11983 367 249232 252705 1419 ERC09301.1 5415 11986 367 9873 13346 1420 ERC10656.1 5418 11989 367 9861 13334 1421 ERE14325.1 5421 11992 367 78160 81633 1422 ERC92365.1 5424 11995 367 503 3976 1423 ERD40228.1 5427 11998 367 9979 13452 1424 ERC91693.1 5430 12001 367 78422 81895 1425 ERD09262.1 5433 12004 367 9938 13411 1426 ERC65820.1 5436 12007 367 76813 80286 1427 ERC53515.1 5439 12010 367 79318 82791 1428 ERE00879.1 5442 12013 367 79822 83295 1429 ERE21794.1 5445 12016 367 77012 80485 1430 ERC61432.1 5448 12019 367 29621 33094 1431 ERC74183.1 5451 12022 367 7928 11401 1432 ERC30058.1 5454 12025 367 249421 252894 1433 ERC33931.1 5457 12028 367 251930 255403 1434 ERC40338.1 5460 12031 367 248447 251920 1435 ERC48255.1 5463 12034 367 313847 317320 1436 ERD08377.1 5466 12037 367 10188 13661 1437 ERD05017.1 5469 12040 367 10008 13481 1438 ERD20744.1 5472 12043 367 10127 13600 1439 ERD22948.1 5475 12046 367 9957 13430 1440 ERD23988.1 5478 12049 367 9873 13346 1441 ERD35067.1 5481 12052 367 10031 13504 1442 ERD37181.1 5484 12055 367 9911 13384 1443 ERD26789.1 5487 12058 367 29789 33106 1444 ERD52927.1 5490 12061 367 9940 13413 1445 ERD45125.1 5493 12064 367 9940 13413 1446 ERD72595.1 5496 12067 367 9928 13401 1447 ERD68374.1 5499 12070 367 9876 13349 1448 ERD73628.1 5502 12073 367 9971 13288 1449 ERD83185.1 5505 12076 367 9864 13337 1450 ERD87988.1 5508 12079 367 9921 13394 1451 ERD91773.1 5511 12082 367 10046 13519 1452 ERD98680.1 5514 12085 367 9963 13436 1453 ERD88425.1 5517 12088 367 9908 13225 1454 ERE36108.1 5520 12091 367 9963 13436 1455 ERE23637.1 5523 12094 367 324 3797 1456 ERE42058.1 5526 12097 367 76380 79853 1457 ERE45406.1 5529 12100 367 76828 80301 1458 ETJ70766.1 5532 12103 367 294 3767 1459 ERC07678.1 5535 12106 367 9843 13316 1460 ESD10537.1 5538 12109 367 455 3928 1461 ESL20618.1 5541 12112 367 2605262 2608735 1462 ESP12224.1 5544 12115 367 347406 350879 1463 ETJ79051.1 5547 12118 367 9638 13111 1464 EST67464.1 5550 12121 367 62231 65703 1465 EST67378.1 5553 12124 367 35969 39442 1466 AHG12153.1 5556 12127 367 5404978 5408295 1467 EYE30765.1 5559 12130 367 13431 16904 1468 EYE15507.1 5562 12133 367 8798 12271 1469 EYE15594.1 5565 12136 367 8718 12191 1470 EYW09909.1 5568 12139 367 361634 365107 1471 EYW25816.1 5571 12142 367 361618 365091 1472 EYW27178.1 5574 12145 367 75562 79035 1473 EYW07429.1 5577 12148 367 9641 13114 1474 EYW24507.1 5580 12151 367 76003 79476 1475 EYW34607.1 5583 12154 367 9641 13114 1476 EYW13498.1 5586 12157 367 76031 79504 1477 EYV89289.1 5589 12160 367 361672 365145 1478 EYY46581.1 5592 12163 367 358618 362091 1479 EYV70452.1 5595 12166 367 125628 129101 1480 EYV67644.1 5598 12169 367 298415 301888 1481 EYV59033.1 5601 12172 367 136307 139780 1482 EYV37956.1 5604 12175 367 6474 9947 1483 EYV46021.1 5607 12178 367 116589 120062 1484 EYV44254.1 5610 12181 367 135140 138613 1485 EYV24871.1 5613 12184 367 136213 139686 1486 EYV22947.1 5616 12187 367 18805 22278 1487 EYV18172.1 5619 12190 367 116382 119855 1488 EYV20082.1 5622 12193 367 17020 20493 1489 EYV16480.1 5625 12196 367 135221 138694 1490 EYW83369.1 5628 12199 367 361672 365145 1491 EYW75517.1 5631 12202 367 9640 13113 1492 EYW71147.1 5634 12205 367 9640 13113 1493 EYW67183.1 5637 12208 367 361537 365010 1494 EYW64052.1 5640 12211 367 361536 365009 1495 EYW57180.1 5643 12214 367 361537 365010 1496 EYW49138.1 5646 12217 367 9640 13113 1497 EYW49451.1 5649 12220 367 9640 13113 1498 EYW43052.1 5652 12223 367 361537 365010 1499 EYW39158.1 5655 12226 367 9640 13113 1500 EYX70056.1 5658 12229 367 246056 249529 1501 EYX57447.1 5661 12232 367 361672 365145 1502 EYX54552.1 5664 12235 367 361672 365145 1503 EYX48138.1 5667 12238 367 361672 365145 1504 EYX44885.1 5670 12241 367 361672 365145 1505 EYX43989.1 5673 12244 367 9641 13114 1506 EYX33008.1 5676 12247 367 361672 365145 1507 EYX30700.1 5679 12250 367 361672 365145 1508 EYX27757.1 5682 12253 367 9641 13114 1509 EYX13624.1 5685 12256 367 9642 13115 1510 EYX12331.1 5688 12259 367 361671 365144 1511 EYX02200.1 5691 12262 367 9639 13112 1512 EYW98548.1 5694 12265 367 135915 139388 1513 EYW85336.1 5697 12268 367 361672 365145 1514 EYV84727.1 5700 12271 367 361904 365377 1515 EYZ76666.1 5703 12274 367 114299 117772 1516 EYZ63884.1 5706 12277 367 22138 25611 1517 EYZ52262.1 5709 12280 367 361630 365103 1518 EYZ37412.1 5712 12283 367 9641 13114 1519 EYZ38311.1 5715 12286 367 361657 365130 1520 EYZ36221.1 5718 12289 367 361632 365105 1521 EYZ14533.1 5721 12292 367 16533 20006 1522 EZC28520.1 5724 12295 367 75292 78765 1523 EZB48634.1 5727 12298 367 10661 14134 1524 EZB05978.1 5730 12301 367 361672 365145 1525 EZB18139.1 5733 12304 367 75494 78967 1526 EZA89755.1 5736 12307 367 361630 365103 1527 EZB32011.1 5739 12310 367 9642 13115 1528 EZB20624.1 5742 12313 367 361672 365145 1529 EZB41520.1 5745 12316 367 9639 13112 1530 EZB11569.1 5748 12319 367 361763 365236 1531 EZB46981.1 5751 12322 367 9639 13112 1532 EZB04407.1 5754 12325 367 361672 365145 1533 EZB74686.1 5757 12328 367 9945 13418 1534 EZB73670.1 5760 12331 367 9018 12491 1535 EZB73226.1 5763 12334 367 1813 5286 1536 EZB87907.1 5766 12337 367 10203 13676 1537 EZB80139.1 5769 12340 367 361406 364879 1538 EZB81691.1 5772 12343 367 9836 13309 1539 EZB96174.1 5775 12346 367 1 2617 1540 EZC15363.1 5778 12349 367 10311 13628 1541 EZC19639.1 5781 12352 367 10014 13487 1542 EZC20552.1 5784 12355 367 9755 13228 1543 EZC30168.1 5787 12358 367 363212 366685 1544 EZC37649.1 5790 12361 367 361839 365312 1545 EZC43979.1 5793 12364 367 247561 251034 1546 EZB95446.1 5796 12367 367 156780 160253 1547 EZC48752.1 5799 12370 367 361737 365210 1548 EZC62959.1 5802 12373 367 73369 76842 1549 EZC70418.1 5805 12376 367 10529 14002 1550 EZC77658.1 5808 12379 367 9929 13402 1551 EZC64799.1 5811 12382 367 361985 365458 1552 EZC90329.1 5814 12385 367 9858 13331 1553 EZC92767.1 5817 12388 367 10327 13800 1554 EZC86949.1 5820 12391 367 9288 12761 1555 EZC83410.1 5823 12394 367 10360 13833 1556 EZD75265.1 5826 12397 367 9641 13114 1557 EZF08564.1 5829 12400 367 361634 365107 1558 EZF05485.1 5832 12403 367 361566 365039 1559 EZE61417.1 5835 12406 367 79039 82512 1560 EZE88802.1 5838 12409 367 10505 13978 1561 EZE89445.1 5841 12412 367 247303 250776 1562 EZE90571.1 5844 12415 367 17451 20924 1563 EZD08972.1 5847 12418 367 361866 365339 1564 EZD16777.1 5850 12421 367 298547 301798 1565 EZD15761.1 5853 12424 367 361275 364748 1566 EZD19492.1 5856 12427 367 361814 365287 1567 EZD00271.1 5859 12430 367 91957 95430 1568 EZD85326.1 5862 12433 367 76047 79520 1569 EZD90120.1 5865 12436 367 9641 13114 1570 EZJ86913.1 5868 12439 367 311 3784 1571 EZJ76225.1 5871 12442 367 2720 6037 1572 EZJ72756.1 5874 12445 367 645 4118 1573 EZK00743.1 5877 12448 367 2714 6187 1574 EZQ47390.1 5880 12451 367 298328 301801 1575 EZQ50286.1 5883 12454 367 361835 365308 1576 AHY73972.1 5886 12457 367 5404976 5408293 1577 KDA71003.1 5889 12460 367 9097 12570 1578 KDA57922.1 5892 12463 365 4997 8308 1579 KDM81017.1 5895 12466 367 152275 155748 1580 KDM84276.1 5898 12469 367 16699 20172 1581 KDT83301.1 5901 12472 367 26840 30313 1582 KDX42981.1 5904 12475 365 42388 45699 1583 KEJ21095.1 5907 12478 367 8693 12166 1584 KEJ20439.1 5910 12481 367 8678 12151 1585 KEM49613.1 5913 12484 367 27031 30504 1586 KEM85728.1 5916 12487 367 26649 30122 1587 KEN65094.1 5919 12490 367 726 4199 1588 KEO16488.1 5922 12493 365 5063 8374 1589 KEO21425.1 5925 12496 367 264 3737 1590 KEK80774.1 5928 12499 367 61240 64713 1591 KEK94611.1 5931 12502 367 26970 30443 1592 KEL07349.1 5934 12505 367 24905 28378 1593 KEL97935.1 5937 12508 367 1475 4948 1594 KEM08523.1 5940 12511 367 26927 30400 1595 AIF96930.1 5943 12514 367 5385621 5389094 1596 AIG71770.1 5946 12517 367 5409083 5412556 1597 KHI41606.1 5949 12520 367 168373 171846 1598 KHH50141.1 5952 12523 365 52610 56077 1599 KHI22223.1 5955 12526 367 1989 5462 1600 AJA29432.1 5958 12529 367 5350388 5353861 1601 KIG29574.1 5961 12532 367 33089 36562 1602 KIY28269.1 5964 12535 367 10372 13845 1603 KIZ09775.1 5967 12538 367 9762 13235 1604 KJJ46590.1 5970 12541 367 66829 70302 1605 KJW55351.1 5973 12544 367 136995 140468 1606 KJW51699.1 5976 12547 367 116958 120431 1607 KKF77969.1 5979 12550 367 10494 13967 1608 KKF80394.1 5982 12553 367 9762 13235 1609 KKK30169.1 5985 12556 367 2135963 2139436 1610 KKY44748.1 5988 12559 149 1 2817 1611 KLG52814.1 5991 12562 367 114307 117780 1612 KNF16833.1 5994 12565 367 1989 5462 1613 KNF20998.1 5997 12568 367 114447 117920 1614 KNF39643.1 6000 12571 367 16655 20128 1615 KNG40955.1 6003 12574 367 146674 150147 1616 CTT73476.1 6006 12577 367 5649 9122 1617 KOZ12762.1 6009 12580 367 78490 81963 1618 KOZ62644.1 6012 12583 367 9646 13119 1619 KOZ92034.1 6015 12586 367 47766 51239 1620 KOZ11133.1 6018 12589 367 9649 13122 1621 KOZ14563.1 6021 12592 367 248571 252044 1622 KOZ32806.1 6024 12595 367 75809 79282 1623 KOZ23194.1 6027 12598 367 361705 365178 1624 KOZ33144.1 6030 12601 367 9646 13119 1625 KOZ37733.1 6033 12604 367 9647 13120 1626 KOZ50075.1 6036 12607 367 361612 365085 1627 KOZ47192.1 6039 12610 367 9644 13117 1628 KOZ49648.1 6042 12613 367 361767 365240 1629 KOZ66198.1 6045 12616 367 67507 70980 1630 KOZ69679.1 6048 12619 367 361543 365016 1631 KOZ74920.1 6051 12622 367 17746 21219 1632 KOZ84732.1 6054 12625 367 66782 70255 1633 KOZ80207.1 6057 12628 367 66781 70254 1634 KOZ97680.1 6060 12631 367 150289 153762 1635 KPH45896.1 6063 12634 367 248360 251833 1636 KPH35133.1 6066 12637 367 361701 365174 1637 KPH38254.1 6069 12640 367 78493 81966 1638 ALH93592.1 6072 12643 367 5193818 5197291 1639 KPO74167.1 6075 12646 367 9683 13156 1640 KPP03704.1 6078 12649 367 114577 118050 1641 KPP08803.1 6081 12652 367 115506 118979 1642 KPP18127.1 6084 12655 367 363358 366831 1643 KPP23764.1 6087 12658 367 9682 13155 1644 KPP34278.1 6090 12661 367 9682 13155 1645 KPP38848.1 6093 12664 367 9682 13155 1646 KPP49036.1 6096 12667 367 9683 13156 1647 KPP10064.1 6099 12670 367 9683 13156 1648 KPP41786.1 6102 12673 367 9681 13154 1649 KPP53633.1 6105 12676 367 363428 366901 1650 KRQ04752.1 6108 12679 367 280602 284075 1651 KUG91602.1 6111 12682 367 545 4018 1652 KUH02055.1 6114 12685 367 27065 30538 1653 KUS40189.1 6117 12688 367 8291 11764 1654 KUT25844.1 6120 12691 367 14510 17983 1655 KUT16912.1 6123 12694 367 2806 6279 1656 KUT50284.1 6126 12697 367 17959 21432 1657 KUU89823.1 6129 12700 367 29590 33063 1658 KUT63219.1 6132 12703 367 9401 12874 1659 KUU32868.1 6135 12706 367 28187 31660 1660 KUU24008.1 6138 12709 367 8294 11767 1661 KUV87989.1 6141 12712 367 8488 11961 1662 KUW19157.1 6144 12715 367 103408 106881 1663 KUW69108.1 6147 12718 367 60641 64114 1664 KUW47133.1 6150 12721 367 28184 31657 1665 AMG80378.1 6153 12724 367 4055455 4058928 1666 KXK90274.1 6156 12727 367 382661 386134 1667 KXP75342.1 6159 12730 367 60834 64307 1668 KXR06381.1 6162 12733 365 17180 20647 1669 KXR86338.1 6165 12736 365 17181 20648 1670 EYT05879.1 6168 12739 363 315579 319040 1671 KMV95470.1 6171 12742 363 1142870 1146331 1672 ESN46749.1 6174 12745 363 356404 359865 1673 KDL89508.1 6177 12748 363 320792 324253 1674 KMG65745.1 6180 12751 363 5112636 5116097 1675 KRR31032.1 6183 12754 363 59524 62985 1676 CVD68076.1 6186 12757 363 361657 365120 1677 CVD62391.1 6189 12760 363 246007 249470 1678 CVA98365.1 6192 12763 363 246132 249595 1679 CVB66940.1 6195 12766 363 245939 249402 1680 CVE07646.1 6198 12769 363 211862 215325 1681 CUZ34247.1 6201 12772 363 363056 366519 1682 CVH03739.1 6204 12775 363 215808 219271 1683 CUZ32693.1 6207 12778 363 361916 365379 1684 CVC01550.1 6210 12781 363 249441 252904 1685 CVC86891.1 6213 12784 363 249294 252757 1686 CVC74523.1 6216 12787 363 212906 216369 1687 CVC09195.1 6219 12790 363 362064 365527 1688 CVG04243.1 6222 12793 363 361779 365242 1689 CVB23944.1 6225 12796 363 362214 365677 1690 CVE95538.1 6228 12799 363 361839 365302 1691 CVG92146.1 6231 12802 363 214249 217712 1692 CVA05266.1 6234 12805 363 364092 367555 1693 COJ21090.1 6237 12808 363 32605 36068 1694 CNK85655.1 6240 12811 363 185197 188660 1695 KLE23457.1 6243 12814 361 207605 211169 1696 KNY42367.1 6246 12817 371 142231 145804 1697 KTL44733.1 6249 12820 378 1320810 1324404 1698 KED68171.1 6252 12823 378 48394 51988 1699 KHF16014.1 6255 12826 361 33571 37114 1700 KIT58954.1 6258 12829 378 63893 67196 1701 KIT38900.1 6261 12832 378 8473 11776 1702 KJR33560.1 6264 12835 378 440782 444376 1703 KKX83989.1 6267 12838 378 440597 444191 1704 KOE91952.1 6270 12841 378 474874 478468 1705 KOF38059.1 6273 12844 361 9424 12967 1706 KON59156.1 6276 12847 279 561224 564323 1707 KXG05867.1 6279 12850 378 440782 444376 1708 KYJ92314.1 6282 12853 378 440782 444376 1709 EMB49754.1 6285 12856 372 6770 9839 1710 EDL69244.1 6288 12859 378 167290 170884 1711 EFM85264.1 6291 12862 269 139662 142821 1712 EFM93936.1 6294 12865 269 112997 116156 1713 EFM98323.1 6297 12868 269 139455 142614 1714 ABI24730.1 6300 12871 269 481084 484348 1715 EYA48171.1 6303 12874 267 60770 63872 1716 EYA76043.1 6306 12877 278 199288 202423 1717 EYA68805.1 6309 12880 278 1 3131 1718 EYA80657.1 6312 12883 278 47013 50148 1719 CUA18410.1 6315 12886 278 2195155 2198290 1720 KDS43043.1 6318 12889 306 21582 24750 1721 KDS37969.1 6321 12892 306 65172 68340 1722 KDS73985.1 6324 12895 306 108116 111284 1723 ALF18257.1 6327 12898 273 1819401 1822845 1724 KXA24059.1 6330 12901 273 105285 108729 1725 EFG28534.1 6333 12904 192 82671 86075 1726 ADJ62018.1 6336 12907 293 542484 545370 1727 KTC70122.1 6339 12910 143 45 2660 1728 AFT94974.1 6342 12913 364 1736318 1739982 1729 EEX38487.1 6345 12916 361 46338 49881 1730 CCN78627.1 6348 12919 361 1996439 2000017 1731 CCN34619.1 6351 12922 361 70222 73800 1732 CCN40569.1 6354 12925 361 26343 29921 1733 CCN66137.1 6357 12928 361 70235 73813 1734 KGJ97947.1 6360 12931 373 43748 47386 1735 EEP52109.1 6363 12934 282 1752487 1755339 1736 AIP08273.1 6366 12937 282 87534 90386 1737 KGC46811.1 6369 12940 282 924785 927637 1738 AIV53984.1 6372 12943 282 1079826 1082678 1739 KGU70602.1 6375 12946 281 1500031 1502880 1740 KGV18647.1 6378 12949 282 3065754 3068606 1741 KGV94868.1 6381 12952 282 2670857 2673709 1742 KGV65995.1 6384 12955 282 197475 200327 1743 KGV92499.1 6387 12958 282 459725 462577 1744 KGX53111.1 6390 12961 282 123203 126055 1745 KGX64950.1 6393 12964 282 2770 5622 1746 AJX71012.1 6396 12967 282 2464517 2467369 1747 AIA69101.1 6399 12970 291 101386 104378 1748 AIK12006.1 6402 12973 291 101407 104399 1749 KMK83436.1 6405 12976 291 83001 85993 1750 KGK11297.1 6408 12979 378 1809125 1812719 1751 EAR22190.1 6411 12982 368 1014237 1017892 1752 ERG19019.1 6414 12985 262 12777 15389 1753 ERG19055.1 6417 12988 382 10170 13838 1754 ERG37345.1 6420 12991 219 39830 42959 1755 KTD25442.1 6423 12994 272 53517 56564 1756 EER46087.1 6426 12997 280 22897 26188 1757 AKZ71840.1 6429 13000 363 570853 574314 1758 KJN72850.1 6432 13003 363 57346 60807 1759 KLQ05986.1 6435 13006 363 77216 80677 1760 KHE02047.1 6438 13009 286 126996 129842 1761 KHN64403.1 6441 13012 286 308711 311557 1762 ACS83825.1 6444 13015 287 7960 11128 1763 EAS45751.1 6447 13018 363 696153 699714 1764 ALP65205.1 6450 13021 282 1243807 1246659 1765 AIO35887.1 6453 13024 282 2947387 2950269 1766 KTC93826.1 6456 13027 270 188880 191921 1767 KVP70161.1 6459 13030 284 94244 97102 1768 KVP49170.1 6462 13033 284 184358 187216 1769 KVQ79698.1 6465 13036 284 191818 194676 1770 KVR10909.1 6468 13039 284 191827 194685 1771 KVR50013.1 6471 13042 284 96265 99123 1772 KVR54360.1 6474 13045 284 94349 97207 1773 KWB45016.1 6477 13048 284 5874 8732 1774 KWB78078.1 6480 13051 284 94316 97174 1775 KWD39081.1 6483 13054 284 184358 187216 1776 KWD33066.1 6486 13057 284 191818 194676 1777 KWD38755.1 6489 13060 284 96265 99123 1778 KWO93443.1 6492 13063 284 28626 31484 1779 KVX24374.1 6495 13066 284 110871 113729 1780 KGO04270.1 6498 13069 259 857 3814 1781 ADE14193.1 6501 13072 377 1007627 1011302 1782 ADR35023.1 6504 13075 172 2375586 2377970 1783 EPF16737.1 6507 13078 281 2485440 2488277 1784 KYL32888.1 6510 13081 379 8157 11763 1785 ALS34709.1 6513 13084 378 195869 199469 1786 KOO13435.1 6516 13087 371 119459 123032 1787 KGA93589.1 6519 13090 195 161290 163757 1788 CCK76633.1 6522 13093 369 2728464 2731988 1789 CAV18533.1 6525 13096 362 1475653 1479223 1790 CEO93971.1 6528 13099 261 126 3047 1791 CDT36087.1 6531 13102 383 162067 165622 1792 CDT66912.1 6534 13105 383 1519 5074 1793 EIY57318.1 6537 13108 296 805872 809052 1794 EPR32277.1 6540 13111 293 3145 6033 1795 ENO91779.1 6543 13114 362 17111 20509 1796 EAQ53527.1 6546 13117 282 673628 676748 1797 GAA81803.1 6549 13120 378 17567 21167 1798 EEF80509.1 6552 13123 137 187507 190453 1799 KVA10029.1 6555 13126 281 247235 250084 1800 GAD76291.1 6558 13129 378 52164 55758 1801 EFM21228.1 6561 13132 363 211867 215330 1802 KJF90750.1 6564 13135 361 53142 56685 1803 KKB47517.1 6567 13138 262 187119 190140 1804 EIM72583.1 6570 13141 262 115 2515 1805 EEX64651.1 6573 13144 372 390460 393529 1806 EEY99585.1 6576 13147 372 77969 81548 1807 EGW44489.1 6579 13150 293 176059 178904 1808 KHD25431.1 6582 13153 378 154792 158682 1809 GAL03974.1 6585 13156 273 103050 106823 1810 ELA08938.1 6588 13159 281 216422 219641 1811 AEH01977.1 6591 13162 264 2395689 2398415 1812 EKM24780.1 6594 13165 378 414659 418285 1813 EOD77075.1 6597 13168 361 2838 6384 1814 KEQ18610.1 6600 13171 380 51532 55402 1815 EJF07132.1 6603 13174 324 10761 15775 1816 KWU01631.1 6606 13177 361 1104 4932 1817 KHL11031.1 6609 13180 282 2470 5322 1818 AIL32427.1 6612 13183 268 682060 685211 1819 KIM02581.1 6615 13186 218 37 2584 1820 KIM12266.1 6618 13189 132 265881 268795 1821 EJU08779.1 6621 13192 273 341208 344700 1822 AJA69894.1 6624 13195 265 3038320 3041220 1823 KRG22678.1 6627 13198 288 262834 265878 1824 KLN64109.1 6630 13201 376 105944 109441 1825 KDM93484.1 6633 13204 375 115926 119449 1826 KLE39936.1 6636 13207 363 242443 245906 1827 KPZ54444.1 6639 13210 378 57960 61560 1828 KQN43370.1 6642 13213 361 53441 56884 1829 CVJ63634.1 6645 13216 281 59414 62268 1830 CVE16997.1 6648 13219 363 215644 219107

The ZORYA system was not found in archaea. The system is present mainly in Proteobacteria and is markedly under-represented in Gram positive bacteria (Firmicutes and Actinobacteria), suggesting that its functionality depends on the double membrane organization of Gram negative bacteria (Table 8).

The gene composition of the Zorya system may point to several hypotheses as to its mechanism of action: It is possible that the system has adopted the MotAB proton channel to achieve depolarization of membrane potential upon phage infection. Possibly, ZorC, ZorD and ZorE may be involved in the sensing and inactivation of phage DNA, and if phage inactivation fails, the ZorAB proton channel opens up, leading to membrane depolarization and cell death. Under this hypothesis Zorya may be a conditional abortive infection system.

Interestingly, although Zorya-containing cells that were infected by phage T7 did not yield phage progeny in greater than 80% of infection events, infection of Zorya-containing cells in liquid cultures led to an eventual culture collapse, suggesting that Zorya-mediated defense involves death or metabolic arrest of the infected cell (FIGS. 4G-4I).

A second, more far-fetched hypothesis as to the function of Zorya may be that ZorAB localizes to the flagellar motor and alters the activity of the flagella in response to phage infection, presumably to evade infection or to avoid infection spreading.

Example 4 Analysis of the Type I ZORYA System Components

Objective:

To analyze the functionality of the Type I ZORYA system.

Methods:

In order to study the four gene components of the ZORYA type I system, functionality was analyzed with mutated forms of each of the genes of the Type I ZORYA. Deletion mutants were made and the cloned vectors comprising specific gene deletions were transformed into E. coli MG1655 cells. Similarly, point mutations were generated and vectors comprising the point mutation constructs were transformed into E. coli MG1655 cells.

Results:

All four genes in the system appear to be essential for its functionality, as deletion of each of the genes resulted in loss of protection from phage infection (FIG. 4J). Moreover, the activity of the ZorAB proton channel appears to be necessary for the system's functionality, as point mutations in residues predicted to be critical for proton translocation through the channel (either ZorA: T147A/S184A or ZorB:D26N) yielded a non-functional system (FIG. 4J). Similarly, point mutations inactivating the Walker B motif of the helicase domain of ZorD, predicted to prevent ATP hydrolysis, resulted in loss of protection from phage infection.

Example 5 Genomic Identification and Analysis of the Thoeris System

Objective:

Identify the candidate defense system based on the enrichment of the anchor pfam08937 (TIR domain).

Methods:

The Thoeris system was one of the systems identified in the first round of prediction. The Thoeris (Egyptian protective deity of childbirth and fertility) defense system is a two-gene system that was detected based on the enrichment of pfam08937 (TIR domain) next to defense genes (FIG. 3B and FIG. 5A). The Thoeris system in some embodiments, is termed the SIR2-TIR system. The TIR domain was previously reported as associated with prokaryotic argonaute genes.

Genomic Identification and Analysis of Thoeris (SIR2-TIR) Systems—

The anchor genes family for SIR2-TIR was pfam08937, a TIR-like domain (also annotated as DUF1863). It had a defense score of 0.68 and a diversity score of 0.33. It produced several subsystems, one of which was the SIR2-TIR subsystem with a defense score of 0.58 and diversity score of 0.91. It is composed of a SIR2-domain gene, with one or more TIR-domain genes in the immediate vicinity of +/−5 genes from the SIR2 gene. Initially 78 appearances were found in the dataset that was used in the automatic prediction. Later, by manual expansion using the most up-to-date IMG dataset, and via homologs of the SIR2 gene, additional 1162 appearances were found, totaling in 1240 appearances in microbial genomes. The genes domains, properties and environment were explored using known bioinformatics tools.

Cloning of SIR2-TIR into B. subtilis BES7003—

A cloning vector for large fragments was constructed by assembling the p15a origin of replication (ori) from pACYCDuet-1 and the amyE integration cassette from plasmid pDR110 (see https://www(dot)ncbi(dot)nlm(dot)nih(dot)gov/pmc/articles/PMC3814332/#pgen.1003892.s005). The p15a ori was amplified using primers OGO174+OGO175 (a list of all primers is provided in Table 5). The amyE integration cassette was amplified using primers OGO176+OGO185. The two fragments were assembled and transformed into E. coli cells using Gibson assembly cloning kit (NEB E5510S), and assembled plasmids were verified by restriction pattern and full sequencing.

The backbone of the above described vector was amplified using primers OGO309+OGO310, adding to it a BamHI restriction site and a terminator site. The multiple cloning site of plasmid pBS1C (received from the BGSC) was amplified using primers OGO311+OGO312. Both fragments were digested using AscI and BamHI, ligated using T4 ligase and transformed into E. coli, resulting in plasmid pSG1-rfp. The plasmid was digestion verified and fully sequenced.

The SIR2-TIR locus of Bacillus cereus MSX-D12 (RefSeq accession AHEQ01000050, coordinates 16453-19685 of the forward strand, SEQ ID NO: XXXXX) was commercially synthesized (GenScript) directly into pSG1-rfp between the AscI and NotI sites of the multiple cloning site. The cloned vector was transformed into B. subtilis BEST7003 [SD1] cells, and the resulting transformants were verified by PCR and whole genome sequencing.

Phage Cultivation and Plaque Assay—

In the initial studies, phi3T, SPO1, phi29 and phi105 phages were obtained from the Bacillus Genetic Stock Center (BGSC). Phages were propagated on B. subtilis BEST7003 using the plate lysate method as described by Fortier & Moineau (Fortier and Moineau (2009) Phage Production and Maintenance of Stocks, Including Expected Stock Lifetimes. In: Clokie M. R., Kropinski A. M. (eds) Bacteriophages. Methods in Molecular Biology™, vol 501. Humana Press)

Lysate titer was determined using the small drop plaque assay method as described by Mazzocco et al. (Mazzocco et al., 2009 ibid). Efficiency of plating (EOP) was measured by performing small drop plaque assay with the same phage lysate concentrations on control bacteria and bacteria containing the SIR2-TIR system and comparing the ratio of plaque formation. Follow-up experiments included plaque assays testing the EOP against JER, Chloro, SpBeta, SPR, phi105, rho14, and SPP1.

Results:

Thoeris (Egyptian protective deity of childbirth and fertility) is a system that was detected based on the enrichment of pfam08937 (TIR domain) next to known defense genes (FIG. 5A). This domain was previously reported as associated with prokaryotic argonaute genes. The pfam08937 (DUF1863) domain was found to be significantly associated with known defense systems (defense score of 0.68). pfam08937 is a protein domain of unknown function, which was found to have structural homology with the TIR-domain (TIR=Toll-Interleukin receptor). TIR domains are known to be involved in bacterial immune system evasion in animals and plants.

As defense systems are frequently encoded by multiple genes working in concert that are co-localized in the genome (i.e. defense islands), the genetic context of the pfam08937-containing genes was analyzed. It was found that there is a subsystem in which upstream of the genes with a pfam08937 domain there is a gene with a SIR2 domain (pfam13289). Also, in many cases there was more than one TIR-domain gene in proximity (FIG. 5A). The defense score of this subsystem was 0.58, raising the hypothesis that these two (or more) genes together form an anti-phage defense system, denoted herein as SIR2-TIR. The SIR2 gene (pfam13289) encodes a protein with a median size of 483 amino acids. The TIR genes can have one of two pfams, pfam08937 or pfam13676 or pfam 08357. They encode proteins with a median size of 202 amino acids.

The first gene in the Thoeris system, denoted thsA, has NAD-binding domain that is sometimes annotated as a sirtuin (SIR2)-like domain or Macro domain. The second gene was denoted thsB, and contains the TIR domain, and can appear in one or more copies (FIG. 5A). In some versions of the Thoeris system, ThsA polypeptide has a multi-transmembrane N-terminal domain.

Two instances of this system, one from Bacillus cereus MSX-D12 (SEQ ID NO: 10; where ThsA is predicted to be cytoplasmic) and the other from Bacillus amyloliquefaciens Y2 (SEQ ID NO: 11; where ThsA is predicted to be membrane-associated) (FIG. 5B), were engineered into B. subtilis BEST7003, which does not contain an endogenous Thoeris defense system. The correct insertion of the system into the B. subtilis BEST7003 genome was verified by whole genome sequencing. The Thoeris system containing B. subtilis BEST7003 strains were challenged with multiple phages spanning the three families of the dsDNA tailed phages Caudavirales, as detailed above in the methods. The mycophages and podophages are obligatory lytic phages, while the siphophages are temperate.

The cloned systems were found to confer defense against myophages (FIGS. 3B and 3E, and FIGS. 5C and 5D). As the 3 tested myophages are very different from each other and share little gene homologies, it is possible that the Thoeris system is sensing or targeting a general feature in the biology of myophages rather than a specific sequence or genome modification. Both Thoeris genes, thsA and thsB, are essential in the system as deletion of either of them rendered the system inactive (FIG. 5C).

Interestingly, the TIR domain (acronym for Toll-Interleukin Receptor) is an important component of the innate immune systems of mammals, plants and invertebrates, where it mainly serves as a connector domain that transfers the immune signal once a molecular pattern of an offensive pathogen is sensed. In animals this domain frequently forms the intracellular portion of membrane-bound Toll-like receptors, whereas in plants it is often connected to intracellular R genes and can also be involved in direct recognition of pathogens. The findings presented here mark a common role for TIR domains in innate immunity across the three domains of life, and implies that the ancestry of this important component of eukaryotic innate immune systems may have stemmed from prokaryotic defense against phages.

The Thoeris system is broadly distributed in bacteria and archaea, and can be detected in at least 4% of the sequenced genomes we analyzed (2070 genomes; Table 9; FIG. 3H).

TABLE 9 The Thoeris Defense System and Components Thereof This table is presented in landscape orientation. Due to the number of columns, the table has been split into parts. Part A includes the first set of columns and therefore should be place to the left of subsequent parts (Part B and where relevant Part C). To avoid any doubt, the rows of the table in each part line up once the tables are placed together. (Part A) I E G H ThsA J A B C D infra- F genomic_acces- #genes protein_acces- PRT SEQ 1 assembly_accession taxid species_taxid organism_name specific_name phylum sion identified sion ID NO: 2 GCA_000166815.1 333849 1352 Enterococcus faecium DO DO Firmicutes AAAK03000018.1 3 EAN09999.1 13220 3 GCA_000169315.1 388400 388400 Bacillus sp. B14905 B14905 Firmicutes AAXV01000012.1 2 EAZ85483.1 13223 4 GCA_000172675.1 535206 1352 Enterococcus faecium E1162 E1162 Firmicutes ABQJ01000097.1 3 EFF33950.1 13225 5 GCA_000172915.1 547468 1352 Enterococcus faecium U0317 U0317 Firmicutes ABSW01000016.1 3 EFF30624.1 13228 6 GCA_000176955.1 596330 33031 Peptoniphilus lacrimalis 315-B 315-B Firmicutes ADDO01000017.1 2 EFA90661.1 13231 7 GCA_000147675.2 596315 341694 Peptostreptococcus stomatis DSM 17678 DSM 17678 Firmicutes ADGQ01000022.1 2 EFM65150.1 13233 8 GCA_000178275.1 702443 28116 Bacteroides ovatus SD CMC 3f SD CMC 3f Bacteroidetes ADMO01000088.1 3 EFF51768.1 13235 9 GCA_000007825.1 226900 1396 Bacillus cereus ATCC 14579 ATCC 14579 Firmicutes AE016877.1 2 AAP11368.1 13238 10 GCA_000179615.1 717606 59840 Paenibacillus curdlanolyticus YK9 YK9 Firmicutes AEDD01000013.1 3 EFM08817.1 13240 11 GCA_000226815.3 907491 714 Aggregatibacter actinomycetemcomitans SCC1398 Proteobacteria AEJP02000033.1 3 KND82314.1 13243 serotype b str. SCC1398 12 GCA_000226835.3 907492 714 Aggregatibacter actinomycetemcomitans I23C Proteobacteria AEJQ02000012.1 3 KOE55210.1 13246 serotype b str. I23C 13 GCA_000239115.2 933356 1352 Enterococcus faecium E4452 E4452 Firmicutes AEOU01000033.1 3 EHM35989.1 13249 14 GCA_000298315.2 990285 1120045 Rhizobium grahamii CCGE 502 CCGE 502 Proteobacteria AEYE02000011.1 2 EPE98431.1 13252 15 GCA_000223275.2 1035188 249188 Haemophilus pittmaniae HK 85 HK 85 Proteobacteria AFUV01000004.1 3 EGV07449.1 13254 16 GCA_000231965.2 760839 1313 Streptococcus pneumoniae GA47502 GA47502 Firmicutes AGNV01000008.1 3 EHD29827.1 13257 17 GCA_000239555.2 904766 1280 Staphylococcus aureus subsp. 21331 Firmicutes AGTV01000033.1 3 EHM75393.1 13260 aureus 21331 18 GCA_000259915.1 1089447 714 Aggregatibacter actinomycetemcomitans RhAA1 Proteobacteria AHGR01000001.1 3 EHK91559.1 13263 RhAA1 19 GCA_000401595.1 1137132 1280 Staphylococcus aureus subsp. 112808A Firmicutes AHZK01000035.1 3 EOR48149.1 13266 aureus 112808A 20 GCA_000257805.1 1095735 28037 Streptococcus mitis SK616 SK616 Firmicutes AICR01000116.1 3 EID19247.1 13269 21 GCA_000252405.2 1155079 1280 Staphylococcus aureus subsp. DR10 Firmicutes AIDT01000006.1 3 EIA14317.1 13272 aureus DR10 22 GCA_000257705.1 1095750 467210 Lachnoanaerobaculum saburreum F0468 F0468 Firmicutes AJGH01000082.1 2 EIC95439.1 13275 23 GCA_000256585.3 406819 406819 Burkholderia sp. SJ98 SJ98 Proteobacteria AJHK02000012.1 2 EKS70339.1 13277 24 GCA_000332935.2 1167009 714 Aggregatibacter actinomycetemcomitans SCC4092 Proteobacteria AJMF02000026.1 3 KOE52661.1 13279 serotype b str. SCC4092 25 GCA_000332955.2 1167008 714 Aggregatibacter actinomycetemcomitans S23A Proteobacteria AJMH02000015.1 3 KOE56127.1 13282 serotype b str. S23A 26 GCA_000262265.1 1095744 735 Haemophilus parahaemolyticus HK385 HK385 Proteobacteria AJSW01000041.1 3 EIJ69644.1 13285 27 GCA_000264155.1 752788 562 Escherichia coli 75 75 Proteobacteria AJWT01000218.1 2 EIL59628.1 13288 28 GCA_000279285.1 991946 666 Vibrio cholerae HE-45 HE-45 Proteobacteria ALED01000025.1 2 EJH65283.1 13290 29 GCA_000290475.1 1154930 1311 Streptococcus agalactiae GB00679 GB00679 Firmicutes ALTY01000018.1 2 EPV35489.1 13292 30 GCA_000067165.1 448385 56 Sorangium cellulosum So ce56 So ce 56 Proteobacteria AM746676.1 2 CAN93966.1 13294 31 GCA_000009585.1 523796 1280 Staphylococcus aureus subsp. type strain: Firmicutes AM990992.1 3 CAQ50582.1 13296 aureus ST398 ST398 32 GCA_000300515.1 1231190 721133 Nitratireductor indicus C115 C115 Proteobacteria AMSI01000038.1 3 EKF39860.1 13299 33 GCA_000468975.2 1232203 1428 Bacillus thuringiensis serovar Leapi01 Firmicutes AMXS02000100.1 2 ETE93554.1 13302 aizawai str. Leapi01 34 GCA_000468995.3 1238885 1428 Bacillus thuringiensis serovar Hu4-2 Firmicutes AMXT02000117.1 2 ETE97368.1 13304 aizawai str. Hu4-2 35 GCA_000410435.1 1256211 1597 Lactobacillus paracasei subsp. CNCM Firmicutes ANKH01000630.1 2 EPC81228.1 13306 paracasei CNCM I-4649 I-4649 36 GCA_000326585.1 1169377 562 Escherichia coli KTE113 KTE113 Proteobacteria ANXQ01000026.1 2 ELI26319.1 13308 37 GCA_000326445.1 1169399 562 Escherichia coli KTE168 KTE168 Proteobacteria ANYM01000035.1 2 ELJ29820.1 13310 38 GCA_000341815.1 1278077 334542 Rhodococcus qingshengii BKS 20-40 BKS 20-40 Actinobacteria AODN01000101.1 3 EME14866.1 13312 39 GCA_000342205.1 1263833 615 Serratia marcescens VGH107 VGH107 Proteobacteria AORJ01000083.1 2 EMF02811.1 13315 40 GCA_000828775.1 1334564 615 Serratia marcescens SM39 SM39 Proteobacteria AP013063.1 2 BAO35114.1 13317 41 GCA_000828875.1 758796 758796 Burkholderia sp. RPE67 RPE67 Proteobacteria AP014579.1 2 BAO91362.1 13319 42 GCA_001547895.1 1500686 1500686 Pseudomonas sp. Os17 Os17 Proteobacteria AP014627.1 5 BAQ74702.1 13321 43 GCA_000372645.1 1292034 155892 Caulobacter crescentus OR37 OR37 Proteobacteria APMP01000003.1 3 ENZ83250.1 13326 44 GCA_000445085.1 428994 428994 Sphingobium sp. HDIP04 HDIP04 Proteobacteria ATDO01000049.1 2 EQB07550.1 13329 45 GCA_000416235.1 911242 911242 Pseudomonas sp. CFII64 CFII64 Proteobacteria ATLO01000035.1 2 EPJ82189.1 13331 46 GCA_000421925.1 1346790 420233 Sphingobium chinhatense IP26 IP26 Proteobacteria AUDA01000159.1 2 EPR14527.1 13333 47 GCA_000455725.2 1344577 1280 Staphylococcus aureus S1 S1 Firmicutes AUPS01000015.1 3 EQM91604.1 13335 48 GCA_000443245.1 1344578 1280 Staphylococcus aureus S130 S130 Firmicutes AUPT01000016.1 3 EPZ04960.1 13338 49 GCA_000443265.1 1344579 1280 Staphylococcus aureus S123 S123 Firmicutes AUPU01000015.1 3 EPZ06671.1 13341 50 GCA_000443125.1 1344580 1280 Staphylococcus aureus S100 S100 Firmicutes AUPV01000016.1 3 EPZ03686.1 13344 51 GCA_000443285.1 1344581 1280 Staphylococcus aureus S94 S94 Firmicutes AUPW01000016.1 3 EPZ11495.1 13347 52 GCA_000477515.1 1366052 1613 Lactobacillus fermentum MTCC 8711 MTCC 8711 Firmicutes AVAB01000001.1 2 EQC60101.1 13350 53 GCA_000449945.2 1151319 1496 Peptoclostridium difficile DA00065 DA00065 Firmicutes AVIU01000072.1 2 EQG20075.1 13352 54 GCA_000452125.2 1151436 1496 Peptoclostridium difficile P71 P71 Firmicutes AVMW01000033.1 2 EQK22995.1 13354 55 GCA_000516615.2 1343073 470 Acinetobacter baumannii CI78 CI78 Proteobacteria AVOE01000023.1 6 ETR94925.1 13356 56 GCA_000454165.1 1238193 670 Vibrio parahaemolyticus VP2007-095 VP2007-095 Proteobacteria AVOI01000015.1 3 EQL89245.1 13362 57 GCA_000465615.2 1357297 615 Serratia marcescens EGD-HP20 EGD-HP20 Proteobacteria AVSR01000008.1 2 ERH73216.1 13365 58 GCA_000478965.1 1111454 1111454 Megasphaera sp. BV3C16-1 BV3C16-1 Firmicutes AWXA01000003.1 2 ERT62562.1 13367 59 GCA_000478985.1 1111134 1111134 Peptoniphilus sp. BV3C26 BV3C26 Firmicutes AWXB01000008.1 3 ERT61554.1 13369 60 GCA_000478985.1 1111134 1111134 Peptoniphilus sp. BV3C26 BV3C26 Firmicutes AWXB01000046.1 2 ERT58436.1 13372 61 GCA_000478865.2 1388760 303 Pseudomonas putida SJ3 SJ3 Proteobacteria AXDX02000039.1 5 ERT19168.2 13374 62 GCA_000496325.1 1408193 287 Pseudomonas aeruginosa VRFPA05 VRFPA05 Proteobacteria AXZJ01000100.1 3 ESR69982.1 13379 63 GCA_000648195.1 1400808 1351 Enterococcus faecalis NY9 NY9 Firmicutes AYOL01000045.1 3 KAJ84751.1 13382 64 GCA_000648195.1 1400808 1351 Enterococcus faecalis NY9 NY9 Firmicutes AYOL01000110.l 2 KAJ82225.1 13385 65 GCA_000506425.2 1415162 1061 Rhodobacter capsulatus B6 B6 Proteobacteria AYQA01000057.1 2 ETD82032.1 13387 66 GCA_000503195.1 1419876 1419876 Blastomonas sp. CACIA14H2 Proteobacteria AYSC01000003.1 3 ESZ88708.1 13389 67 GCA_000510425.1 1161902 35518 Eubacterium nodatum ATCC 33099 ATCC 33099 Firmicutes AZKM01000022.1 2 ETJ99320.1 13392 68 GCA_001596225.1 1434263 714 Aggregatibacter actinomycetemcomitans SA2149 Proteobacteria AZTT01000065.1 3 KYK73940.1 13394 serotype e str. SA2149 69 GCA_000512995.1 936596 936596 Lachnoanaerobaculum sp. MSX33 MSX33 Firmicutes AZXX01000025.1 2 ETO98932.1 13397 70 GCA_000513095.1 1236970 127891 Bacillus wakoensis JCM 9140 JCM 9140 Firmicutes BAUT01000052.1 2 GAE27470.1 13399 71 GCA_000787715.1 1219049 28213 Sphingomonas parapaucimobilis NBRC 15100 NBRC 15100 Proteobacteria BBPI01000099.1 3 GAM02795.1 13401 72 GCA_000195675.1 257310 518 Bordetella bronchiseptica RB50 RB50 Proteobacteria BX470250.1 3 CAE30982.1 13404 73 GCA_000355725.1 1118157 40324 Stenotrophomonas maltophilia RA8 RA8 Proteobacteria CALM01001187.1 3 CCP18523.1 13407 74 GCA_000985975.1 323656 399 Neorhizobium galegae bv. officinalis Proteobacteria CCRK01000014.1 2 CDZ53063.1 13410 75 GCA_000820425.1 1363 1363 Lactococcus garvieae M14 Firmicutes CCXC01000004.1 2 CEF52297.1 13412 76 GCA_001113365.1 1313 1313 Streptococcus pneumoniae SMRU2014 Firmicutes CKYA01000015.1 2 CJD59524.1 13414 77 GCA_000161115.1 526978 1396 Bacillus cereus BDRD-Cer4 BDRD-Cer4 Firmicutes CM000726.1 2 EEL09527.1 13416 78 GCA_000161395.1 526993 1396 Bacillus cereus AH1272 AH1272 Firmicutes CM000740.1 3 EEL84782.1 13418 79 GCA_000003955.1 526994 1396 Bacillus cereus AH1273 AH1273 Firmicutes CM000741.1 3 EEL90114.1 13421 80 GCA_000159695.1 525282 1260 Finegoldia magna ATCC 53516 ATCC 53516 Firmicutes CM000955.1 2 EFH92719.1 13424 81 GCA_000183885.1 702456 1642 Listeria innocua FSLS4-378 FSLS4-378 Firmicutes CM001048.1 2 EFR92171.1 13426 82 GCA_000263675.2 1038924 294 Pseudomonas fluorescens SS101 SS101 Proteobacteria CM001513.1 3 EIK62927.1 13428 83 GCA_000012605.1 317025 39765 Thiomicrospira crunogena XCL-2 XCL-2 Proteobacteria CP000109.2 4 ABB40969.1 13431 84 GCA_000013605.1 338969 192843 Rhodoferax ferrireducens T118 DSM 15236 Proteobacteria CP000267.1 2 ABD68809.1 13435 85 GCA_000013625.1 375286 375286 Janthinobacterium sp. Marseille Marseille Proteobacteria CP000269.1 3 ABR91460.1 13437 86 GCA_000014665.1 60481 60481 Shewanella sp. MR-7 MR-7 Proteobacteria CP000444.1 3 ABI42036.1 13440 87 GCA_000015885.1 416269 715 Actinobacillus pleuropneumoniae L20 Proteobacteria CP000569.1 3 ABN74271.1 13443 serovar 5b str. L20 88 GCA_000016125.1 402880 39152 Methanococcus maripaludis C5 C5 Euryarchaeota CP000609.1 2 ABO35466.1 13446 89 GCA_000016405.1 349102 1063 Rhodobacter sphaeroides ATCC 17025 ATCC 17025 Proteobacteria CP000665.1 3 ABP73209.1 13448 90 GCA_000016965.1 290402 1520 Clostridium beijerinckii NCIMB8052 NCIMB 8052 Firmicutes CP000721.1 5 ABR34958.1 13451 91 GCA_000017145.1 366394 110321 Sinorhizobium medicae WSM419 WSM419 Proteobacteria CP000741.1 2 ABR65059.1 13456 92 GCA_000019445.1 390235 303 Pseudomonas putida W619 W619 Proteobacteria CP000949.1 5 ACA73845.1 13458 93 GCA_000019925.1 398577 152480 Burkholderia ambifaria MC40-6 MC40-6 Proteobacteria CP001026.1 3 ACB66894.1 13463 94 GCA_000146265.2 668336 714 Aggregatibacter actinomycetemcomitans D11S-1 Proteobacteria CP001733.1 3 ACX81594.1 13466 D11S-1 95 GCA_000024405.1 526218 826 Sebaldella termitidis ATCC 33386 ATCC 33386 Fusobacteria CP001740.1 2 ACZ11005.1 13469 96 GCA_000025345.1 526225 1861 Geodermatophilus obscurus DSM 43160 DSM 43160 Actinobacteria CP001867.1 3 ADB76077.1 13471 97 GCA_000192635.1 861208 861208 Agrobacterium sp. H13-3 H13-3 Proteobacteria CP002250.1 4 ADY67727.1 13474 98 GCA_000166135.1 298654 298654 Frankia sp. Eul1c Eul1c Actinobacteria CP002299.1 2 ADP84996.1 13478 99 GCA_000195575.1 208596 208596 Carnobacterium sp. 17-4 17-4 Firmicutes CP002563.1 3 AEB29797.1 13480 100 GCA_000194745.1 999541 28095 Burkholderia gladioli BSR3 BSR3 Proteobacteria CP002599.1 6 AEA61152.1 13483 101 GCA_000258685.1 1155084 1280 Staphylococcus aureus subsp. 71193 Firmicutes CP003045.1 3 AFH70387.1 13489 aureus 71193 102 GCA_000241025.2 754507 714 Aggregatibacter actinomycetemcomitans ANH9381 Proteobacteria CP003099.1 3 AEW76524.1 13492 ANH9381 103 GCA_000239195.1 347495 1396 Bacillus cereus F837/76 F837/76 Firmicutes CP003187.1 2 AEW57570.1 13495 104 GCA_000264455.2 1110502 171437 Tistrella mobilis KA081020-065 KA081020-065 Proteobacteria CP003236.1 4 AFK54067.1 13497 105 GCA_000747565.1 488142 488142 Serratia sp. SCBI SCBI Proteobacteria CP003424.1 2 AIM23120.1 13501 106 GCA_000230695.3 666685 666685 Rhodanobacter denitrificans 2APBS1 Proteobacteria CP003470.1 2 AGG89637.1 13503 107 GCA_000174395.2 333849 1352 Enterococcus faecium DO DO Firmicutes CP003583.1 3 AFK58216.1 13505 108 GCA_000281215.1 1196325 303 Pseudomonas putida DOT-T1E DOT-TIE Proteobacteria CP003734.1 4 AF049035.1 13508 109 GCA_000296595.1 1229492 1280 Staphylococcus aureus 08BA02176 08BA02176 Firmicutes CP003808.1 3 AFR74120.1 13512 110 GCA_000599545.1 543736 37919 Rhodococcus opacus PD630 PD630 Actinobacteria CP003949.1 2 AHK33011.1 13515 111 GCA_000336425.1 435998 615 Serratia marcescens WW4 WW4 Proteobacteria CP003959.1 2 AGE19433.1 13517 112 GCA_000257545.3 1147786 75612 Pseudomonas mandelii JR-1 JR-1 Proteobacteria CP005960.1 4 AHZ68662.1 13519 113 GCA_000401555.1 1288394 644 Aeromonas hydrophila ML09-119 ML09-119 Proteobacteria CP005966.1 2 AGM44765.1 13523 114 GCA_000338115.2 1284663 1590 Lactobacillus plantarum ZJ316 ZJ316 Firmicutes CP006247.1 2 AGS26695.1 13525 115 GCA_000176835.2 682634 82996 Serratia plymuthica 4Rx13 4Rx13 Proteobacteria CP006250.1 2 AGO56414.1 13527 116 GCA_000418305.1 571800 571800 Psychrobacter sp. G G Proteobacteria CP006265.1 3 AGP48697.1 13529 117 GCA_000767745.1 864803 1520 Clostridium beijerinckii ATCC 35702 SA-1 Firmicutes CP006777.1 5 AIU01497.1 13532 118 GCA_000504585.1 1380774 1380774 Pandoraea sp. RB-44 RB-44 Proteobacteria CP006938.1 3 AHB77236.1 13537 119 GCA_000835085.1 1124992 2095 Mycoplasma capricolum subsp. 87001 Tenericutes CP006959.1 2 AJK51071.1 13540 capripneumoniae 87001 120 GCA_000510285.1 1435044 76759 Pseudomonas monteilii SB3078 SB3078 Proteobacteria CP006978.1 3 AHC80715.1 13542 121 GCA_000510325.1 1435058 76759 Pseudomonas monteilii SB3101 SB3101 Proteobacteria CP006979.1 3 AHC86147.1 13545 122 GCA_000604045.1 272556 714 Aggregatibacter actinomycetemcomitans HK1651 Proteobacteria CP007502.1 3 AHN71072.1 13548 HK1651 123 GCA_001191585.1 272556 714 Aggregatibacter actinomycetemcomitans HK1651 Proteobacteria CP008984.1 3 AKU28345.1 13551 HK1651 124 GCA_000834215.1 1454377 29484 Yersinia frederiksenii Y225 Y225 Proteobacteria CP009364.1 3 AJI87975.1 13554 125 GCA_000758725.1 189426 189426 Paenibacillus odorifer DSM 15391 Firmicutes CP009428.1 3 AIQ75144.1 13557 126 GCA_000477035.2 1348585 76594 Cellulophaga baltica NN016038 NN016038 Bacteroidetes CP009887.1 2 AIY12608.1 13560 127 GCA_000834865.1 28152 28152 Yersinia kristensenii Y231 Proteobacteria CP009997.1 3 AJJ37542.1 13562 128 GCA_000831585.1 70775 70775 Pseudomonas plecoglossicida NyZ12 Proteobacteria CP010359.1 3 AJG12527.1 13565 129 GCA_000961035.1 35554 35554 Geobacter sulfurreducens AM-1 Proteobacteria CP010430.1 3 AJY68818.1 13568 130 GCA_000934565.1 294 294 Pseudomonas fluorescens PCL1751 Proteobacteria CP010896.1 2 AJP52231.1 13571 131 GCA_000934525.1 589873 589873 Alteromonas australica DE170 Proteobacteria CP010912.1 2 AJP42564.1 13573 132 GCA_001023535.1 587753 587753 Pseudomonas chlororaphis UFB2 Proteobacteria CP011020.1 3 AKK01414.1 13575 133 GCA_000973085.1 187101 187101 Sneathia amnii SN35 Fusobacteria CP011280.1 4 AKC95051.1 13578 134 GCA_001043175.1 330734 330734 Marinobacter psychrophilus 20041 Proteobacteria CP011494.1 2 AKO52328.1 13582 135 GCA_001266795.1 1671721 1671721 Marinobacter sp. CP1 CP1 Proteobacteria CP011929.1 2 AKV98647.1 13584 136 GCA_001294565.1 615 615 Serratia marcescens SmUNAM836 Proteobacteria CP012685.1 2 ALE97361.1 13586 137 GCA_001310255.1 1532555 1532555 Brevundimonas sp. DS20 DS20 Proteobacteria CP012897.1 4 ALJ08795.1 13588 138 GCA_001594245.1 714 714 Aggregatibacter actinomycetemcomitans VT1169 Proteobacteria CP012958.1 3 AMQ92899.1 13592 139 GCA_001414055.1 69395 69395 Caulobacter henricii CB4 Proteobacteria CP013002.1 3 ALL13164.1 13595 140 GCA_001455365.1 644 644 Aeromonas hydrophila JBN2301 Proteobacteria CP013178.1 3 ALQ62810.1 13598 141 GCA_001465635.1 1280 1280 Staphylococcus aureus RIVM1295 Firmicutes CP013616.1 3 ALS70450.1 13601 142 GCA_001465675.1 1280 1280 Staphylococcus aureus RIVM1607 Firmicutes CP013619.1 3 ALS73061.1 13604 143 GCA_001465755.1 1280 1280 Staphylococcus aureus RIVM3897 Firmicutes CP013621.1 3 ALS86458.1 13607 144 GCA_001518915.1 1763998 1763998 Rheinheimera sp. F8 F8 Proteobacteria CP013656.1 2 ALZ77344.1 13610 145 GCA_001518775.1 644 644 Aeromonas hydrophila D4 Proteobacteria CP013965.1 3 ALZ79510.1 13612 146 GCA_001518735.1 1352 1352 Enterococcus faecium 6E6 Firmicutes CP013994.1 3 ALZ52747.1 13615 147 GCA_001561955.1 991789 28446 [Clostridium] propionicum DSM 1682 X2 Firmicutes CP014223.1 4 AMJ40926.1 13618 148 GCA_001560895.1 28037 28037 Streptococcus mitis SVGS_061 Firmicutes CP014326.1 3 AMH88749.1 13622 149 GCA_001515585.2 303 303 Pseudomonas putida 1A00316 Proteobacteria CP014343.1 2 AMK33280.1 13625 150 GCA_001112925.1 685706 685706 Yersinia nurmii type strain: Proteobacteria CPYD01000022.1 2 CNF27344.1 13627 CIP110231 151 GCA_001140625.1 633 633 Yersinia pseudotuberculosis R819 Proteobacteria CPZI01000008.1 3 CNF62528.1 13629 152 GCA_001121225.1 29484 29484 Yersinia frederiksenii IP25924 Proteobacteria CQBF01000033.1 3 CNI82010.1 13632 153 GCA_001114105.1 367190 367190 Yersinia similis Y233 Proteobacteria CQBK01000054.1 3 CNI72044.1 13635 154 GCA_001368815.1 1462524 1462524 Paraliobacillus sp. PM-2 PM-2 Firmicutes CTEI01000001.1 2 CQR45868.1 13638 155 GCA_001222805.1 630 630 Yersinia enterocolitica YE09/03 Proteobacteria CTKQ01000009.1 5 CQJ38356.1 13640 156 GCA_001499695.1 40324 40324 Stenotrophomonas maltophilia Proteobacteria CVIU01000014.1 4 CRD50721.1 13645 157 GCA_001406815.1 301302 301302 Roseburia faecis M72 Firmicutes CVRR01000033.1 2 CRL40092.1 13649 158 GCA_001177845.1 148942 1336 Streptococcus equi subsp. equi EQUI0003 Firmicutes CVWY01000044.1 2 CRR05859.1 13651 159 GCA_001179425.1 148942 1336 Streptococcus equi subsp. equi EQUI0005 Firmicutes CVXE01000065.1 2 CRR37079.1 13653 160 GCA_001179085.1 148942 1336 Streptococcus equi subsp. equi EQUI0004 Firmicutes CVXF01000062.1 2 CRR43612.1 13655 161 GCA_001178765.1 148942 1336 Streptococcus equi subsp. equi EQUI0007 Firmicutes CVXG01000062.1 2 CRR34883.1 13657 162 GCA_001178485.1 148942 1336 Streptococcus equi subsp. equi EQUI0006 Firmicutes CVXI01000065.1 2 CRR50108.1 13659 163 GCA_001175105.1 148942 1336 Streptococcus equi subsp. equi EQUI0008 Firmicutes CVXJ01000058.1 2 CRR37365.1 13661 164 GCA_001175965.1 148942 1336 Streptococcus equi subsp. equi EQUI0009 Firmicutes CVXK01000003.1 2 CRR01737.1 13663 165 GCA_001175845.1 148942 1336 Streptococcus equi subsp. equi EQUI0010 Firmicutes CVXM01000058.1 2 CRR52905.1 13665 166 GCA_001176705.1 148942 1336 Streptococcus equi subsp. equi EQUI0011 Firmicutes CVX001000058.1 2 CRR41690.1 13667 167 GCA_001178165.1 148942 1336 Streptococcus equi subsp. equi EQUI0033 Firmicutes CVXQ01000063.1 2 CRS57164.1 13669 168 GCA_001178685.1 148942 1336 Streptococcus equi subsp. equi EQUI0035 Firmicutes CVXR01000068.1 2 CRS58226.1 13671 169 GCA_001178905.1 148942 1336 Streptococcus equi subsp. equi EQUI0036 Firmicutes CVXS01000068.1 2 CRS57780.1 13673 170 GCA_001178025.1 148942 1336 Streptococcus equi subsp. equi EQUI0034 Firmicutes CVXT01000066.1 2 CRS58151.1 13675 171 GCA_001178585.1 148942 1336 Streptococcus equi subsp. equi EQUI0037 Firmicutes CVXU01000042.1 2 CRS55109.1 13677 172 GCA_001175585.1 148942 1336 Streptococcus equi subsp. equi EQUI0039 Firmicutes CVXV01000043.1 2 CRS48588.1 13679 173 GCA_001175365.1 148942 1336 Streptococcus equi subsp. equi EQUI0040 Firmicutes CVXW01000043.1 2 CRS51337.1 13681 174 GCA_001175305.1 148942 1336 Streptococcus equi subsp. equi EQUI0038 Firmicutes CVXX01000041.1 2 CRS48392.1 13683 175 GCA_001175645.1 148942 1336 Streptococcus equi subsp. equi EQUI0041 Firmicutes CVXY01000044.1 2 CRS50262.1 13685 176 GCA_001176045.1 148942 1336 Streptococcus equi subsp. equi EQUI0042 Firmicutes CVXZ01000043.1 2 CRS50718.1 13687 177 GCA_001176505.1 148942 1336 Streptococcus equi subsp. equi EQUI0043 Firmicutes CVYA01000044.1 2 CRS54427.1 13689 178 GCA_001176825.1 148942 1336 Streptococcus equi subsp. equi EQUI0044 Firmicutes CVYB01000042.1 2 CRS57080.1 13691 179 GCA_001176965.1 148942 1336 Streptococcus equi subsp. equi EQUI0045 Firmicutes CVYC01000044.1 2 CRS58973.1 13693 180 GCA_001177245.1 148942 1336 Streptococcus equi subsp. equi EQUI0046 Firmicutes CVYD01000043.1 2 CRS51127.1 13695 181 GCA_001177205.1 148942 1336 Streptococcus equi subsp. equi EQUI0047 Firmicutes CVYE01000045.1 2 CRS51981.1 13697 182 GCA_001177785.1 148942 1336 Streptococcus equi subsp. equi EQUI0220 Firmicutes CVYF01000064.1 2 CRS77740.1 13699 183 GCA_001179185.1 148942 1336 Streptococcus equi subsp. equi EQUI0222 Firmicutes CVYG01000060.1 2 CRS83912.1 13701 184 GCA_001178625.1 148942 1336 Streptococcus equi subsp. equi EQUI0048 Firmicutes CVYH01000042.1 2 CRS76791.1 13703 185 GCA_001178345.1 148942 1336 Streptococcus equi subsp. equi EQUI0218 Firmicutes CVYI01000043.1 2 CRS78515.1 13705 186 GCA_001177385.1 148942 1336 Streptococcus equi subsp. equi EQUI0219 Firmicutes CVYJ01000068.1 2 CRS90898.1 13707 187 GCA_001179045.1 148942 1336 Streptococcus equi subsp. equi EQUI0221 Firmicutes CVYK01000065.1 2 CRS79977.1 13709 188 GCA_001178545.1 148942 1336 Streptococcus equi subsp. equi EQUI0224 Firmicutes CVYL01000063.1 2 CRS84436.1 13711 189 GCA_001179445.1 148942 1336 Streptococcus equi subsp. equi EQUI0223 Firmicutes CVYM01000062.1 2 CRS81776.1 13713 190 GCA_001178925.1 148942 1336 Streptococcus equi subsp. equi EQUI0049 Firmicutes CVYN01000043.1 2 CRS82433.1 13715 191 GCA_001177665.1 148942 1336 Streptococcus equi subsp. equi EQUI0234 Firmicutes CVYO01000041.1 2 CRS93257.1 13717 192 GCA_001175485.1 148942 1336 Streptococcus equi subsp. equi EQUI0226 Firmicutes CVYP01000057.1 2 CRT34694.1 13719 193 GCA_001178205.1 148942 1336 Streptococcus equi subsp. equi EQUI0237 Firmicutes CVYQ01000063.1 2 CRT26926.1 13721 194 GCA_001178065.1 148942 1336 Streptococcus equi subsp. equi EQUI0236 Firmicutes CVYR01000064.1 2 CRT43878.1 13723 195 GCA_001177345.1 148942 1336 Streptococcus equi subsp. equi EQUI0232 Firmicutes CVYS01000043.1 2 CRT34280.1 13725 196 GCA_001177405.1 148942 1336 Streptococcus equi subsp. equi EQUI0233 Firmicutes CVYT01000065.1 2 CRT48070.1 13727 197 GCA_001176725.1 148942 1336 Streptococcus equi subsp. equi EQUI0230 Firmicutes CVYU01000041.1 2 CRT42031.1 13729 198 GCA_001175145.1 148942 1336 Streptococcus equi subsp. equi EQUI0239 Firmicutes CVYV01000040.1 2 CRT45621.1 13731 199 GCA_001176105.1 148942 1336 Streptococcus equi subsp. equi EQUI0060 Firmicutes CVYW01000044.1 2 CRT37702.1 13733 200 GCA_001177885.1 148942 1336 Streptococcus equi subsp. equi EQUI0235 Firmicutes CVYX01000041.1 2 CRT44937.1 13735 201 GCA_001176125.1 148942 1336 Streptococcus equi subsp. equi EQUI0228 Firmicutes CVYY01000066.1 2 CRT51318.1 13737 202 GCA_001175185.1 148942 1336 Streptococcus equi subsp. equi EQUI0059 Firmicutes CVYZ01000043.1 2 CRT46051.1 13739 203 GCA_001178845.1 148942 1336 Streptococcus equi subsp. equi EQUI0225 Firmicutes CVZA01000065.1 2 CRT46015.1 13741 204 GCA_001176025.1 148942 1336 Streptococcus equi subsp. equi EQUI0238 Firmicutes CVZB01000068.1 2 CRT64519.1 13743 205 GCA_001175885.1 148942 1336 Streptococcus equi subsp. equi EQUI0062 Firmicutes CVZC01000026.1 2 CRT20938.1 13745 206 GCA_001175665.1 148942 1336 Streptococcus equi subsp. equi EQUI0061 Firmicutes CVZD01000042.1 2 CRT55748.1 13747 207 GCA_001178425.1 148942 1336 Streptococcus equi subsp. equi EQUI0063 Firmicutes CVZE01000061.1 2 CRT61683.1 13749 208 GCA_001179245.1 148942 1336 Streptococcus equi subsp. equi HO51380626 Firmicutes CVZF01000040.1 2 CRT39243.1 13751 209 GCA_001175405.1 148942 1336 Streptococcus equi subsp. equi EQUI0240 Firmicutes CVZG01000039.1 2 CRT66749.1 13753 210 GCA_001176385.1 148942 1336 Streptococcus equi subsp. equi EQUI0229 Firmicutes CVZH01000065.1 2 CRT72248.1 13755 211 GCA_001178805.1 148942 1336 Streptococcus equi subsp. equi EQUI0064 Firmicutes CVZI01000059.1 2 CRT58939.1 13757 212 GCA_001179125.1 148942 1336 Streptococcus equi subsp. equi EQUI0065 Firmicutes CVZJ01000061.1 2 CRT49564.1 13759 213 GCA_001175225.1 148942 1336 Streptococcus equi subsp. equi EQUI0227 Firmicutes CVZK01000068.1 2 CRT72921.1 13761 214 GCA_001176925.1 148942 1336 Streptococcus equi subsp. equi EQUI0231 Firmicutes CVZL01000044.1 2 CRT74944.1 13763 215 GCA_001179345.1 148942 1336 Streptococcus equi subsp. equi EQUI0067 Firmicutes CVZM01000061.1 2 CRT61440.1 13765 216 GCA_001176525.1 148942 1336 Streptococcus equi subsp. equi EQUI0068 Firmicutes CVZN01000058.1 2 CRT76644.1 13767 217 GCA_001178305.1 148942 1336 Streptococcus equi subsp. equi EQUI0071 Firmicutes CVZO01000056.1 2 CRT71332.1 13769 218 GCA_001176765.1 148942 1336 Streptococcus equi subsp. equi EQUI0069 Firmicutes CVZP01000060.1 2 CRT68258.1 13771 219 GCA_001178085.1 148942 1336 Streptococcus equi subsp. equi EQUI0070 Firmicutes CVZQ01000059.1 2 CRT74820.1 13773 220 GCA_001177605.1 148942 1336 Streptococcus equi subsp. equi EQUI0072 Firmicutes CVZR01000059.1 2 CRT73973.1 13775 221 GCA_001179065.1 148942 1336 Streptococcus equi subsp. equi EQUI0075 Firmicutes CVZS01000059.1 2 CRT75021.1 13777 222 GCA_001179405.1 148942 1336 Streptococcus equi subsp. equi EQUI0076 Firmicutes CVZT01000062.1 2 CRT66743.1 13779 223 GCA_001177545.1 148942 1336 Streptococcus equi subsp. equi EQUI0053 Firmicutes CVZU01000044.1 2 CRT70587.1 13781 224 GCA_001177965.1 148942 1336 Streptococcus equi subsp. equi EQUI0052 Firmicutes CVZV01000039.1 2 CRT64134.1 13783 225 GCA_001177065.1 148942 1336 Streptococcus equi subsp. equi EQUI0058 Firmicutes CVZW01000041.1 2 CRT58016.1 13785 226 GCA_001178565.1 148942 1336 Streptococcus equi subsp. equi EQUI0077 Firmicutes CVZX01000060.1 2 CRT66308.1 13787 227 GCA_001177485.1 148942 1336 Streptococcus equi subsp. equi EQUI0074 Firmicutes CVZY01000060.1 2 CRT75771.1 13789 228 GCA_001177865.1 148942 1336 Streptococcus equi subsp. equi EQUI0054 Firmicutes CWAA01000064.1 2 CRT69364.1 13791 229 GCA_001176905.1 148942 1336 Streptococcus equi subsp. equi EQUI0055 Firmicutes CWAB01000063.1 2 CRT79535.1 13793 230 GCA_001178105.1 148942 1336 Streptococcus equi subsp. equi EQUI0050 Firmicutes CWAC01000043.1 2 CRT65384.1 13795 231 GCA_001175245.1 148942 1336 Streptococcus equi subsp. equi EQUI0078 Firmicutes CWAD01000060.1 2 CRT80463.1 13797 232 GCA_001175925.1 148942 1336 Streptococcus equi subsp. equi EQUI0080 Firmicutes CWAE01000060.1 2 CRT86531.1 13799 233 GCA_001176325.1 148942 1336 Streptococcus equi subsp. equi EQUI0082 Firmicutes CWAF01000061.1 2 CRT83007.1 13801 234 GCA_001175985.1 148942 1336 Streptococcus equi subsp. equi EQUI0081 Firmicutes CWAG01000061.1 2 CRT86803.1 13803 235 GCA_001176605.1 148942 1336 Streptococcus equi subsp. equi EQUI0083 Firmicutes CWAH01000060.1 2 CRT85044.1 13805 236 GCA_001177025.1 148942 1336 Streptococcus equi subsp. equi EQUI0085 Firmicutes CWAI01000060.1 2 CRT84205.1 13807 237 GCA_001177285.1 148942 1336 Streptococcus equi subsp. equi EQUI0086 Firmicutes CWAJ01000043.1 2 CRT81920.1 13809 238 GCA_001176785.1 148942 1336 Streptococcus equi subsp. equi EQUI0084 Firmicutes CWAK01000064.1 2 CRT86927.1 13811 239 GCA_001177625.1 148942 1336 Streptococcus equi subsp. equi EQUI0087 Firmicutes CWAL01000044.1 2 CRT82847.1 13813 240 GCA_001175285.1 148942 1336 Streptococcus equi subsp. equi EQUI0088 Firmicutes CWAM01000044.1 2 CRT86345.1 13815 241 GCA_001175545.1 148942 1336 Streptococcus equi subsp. equi EQUI0079 Firmicutes CWAN01000059.1 2 CRT89319.1 13817 242 GCA_001175525.1 148942 1336 Streptococcus equi subsp. equi EQUI0089 Firmicutes CWAO01000054.1 2 CRT87540.1 13819 243 GCA_001175805.1 148942 1336 Streptococcus equi subsp. equi EQUI0090 Firmicutes CWAP01000063.1 2 CRT90533.1 13821 244 GCA_001176065.1 148942 1336 Streptococcus equi subsp. equi EQUI0092 Firmicutes CWAQ01000063.1 2 CRT91761.1 13823 245 GCA_001175625.1 148942 1336 Streptococcus equi subsp. equi EQUI0091 Firmicutes CWAR01000063.1 2 CRU00009.1 13825 246 GCA_001176265.1 148942 1336 Streptococcus equi subsp. equi EQUI0094 Firmicutes CWAS01000062.1 2 CRT98477.1 13827 247 GCA_001176945.1 148942 1336 Streptococcus equi subsp. equi EQUI0095 Firmicutes CWAT01000059.1 2 CRT99301.1 13829 248 GCA_001177265.1 148942 1336 Streptococcus equi subsp. equi EQUI0096 Firmicutes CWAU01000061.1 2 CRT99600.1 13831 249 GCA_001177225.1 148942 1336 Streptococcus equi subsp. equi EQUI0097 Firmicutes CWAV01000039.1 2 CRU04445.1 13833 250 GCA_001178005.1 148942 1336 Streptococcus equi subsp. equi EQUI0099 Firmicutes CWAW01000041.1 2 CRU03267.1 13835 251 GCA_001178145.1 148942 1336 Streptococcus equi subsp. equi EQUI0098 Firmicutes CWAX01000042.1 2 CRU09874.1 13837 252 GCA_001178785.1 148942 1336 Streptococcus equi subsp. equi EQUI0100 Firmicutes CWAY01000043.1 2 CRU07135.1 13839 253 GCA_001179105.1 148942 1336 Streptococcus equi subsp. equi EQUI0105 Firmicutes CWAZ01000043.1 2 CRU20234.1 13841 254 GCA_001178385.1 148942 1336 Streptococcus equi subsp. equi EQUI0106 Firmicutes CWBA01000062.1 2 CRU18218.1 13843 255 GCA_001178365.1 148942 1336 Streptococcus equi subsp. equi EQUI0103 Firmicutes CWBB01000068.1 2 CRU22358.1 13845 256 GCA_001179205.1 148942 1336 Streptococcus equi subsp. equi EQUI0107 Firmicutes CWBC01000062.1 2 CRU18024.1 13847 257 GCA_001177725.1 148942 1336 Streptococcus equi subsp. equi EQUI0108 Firmicutes CWBD01000063.1 2 CRU21807.1 13849 258 GCA_001177805.1 148942 1336 Streptococcus equi subsp. equi EQUI0109 Firmicutes CWBE01000063.1 2 CRU20295.1 13851 259 GCA_001177985.1 148942 1336 Streptococcus equi subsp. equi EQUI0110 Firmicutes CWBF01000047.1 2 CRU20891.1 13853 260 GCA_001176645.1 148942 1336 Streptococcus equi subsp. equi EQUI0114 Firmicutes CWBG01000041.1 2 CRU31596.1 13855 261 GCA_001176425.1 148942 1336 Streptococcus equi subsp. equi EQUI0112 Firmicutes CWBH01000044.1 2 CRU58975.1 13857 262 GCA_001176365.1 148942 1336 Streptococcus equi subsp. equi EQUI0113 Firmicutes CWBI01000040.1 2 CRU85987.1 13859 263 GCA_001178185.1 148942 1336 Streptococcus equi subsp. equi EQUI0111 Firmicutes CWBJ01000064.1 2 CRU70022.1 13861 264 GCA_900004825.1 148942 1336 Streptococcus equi subsp. equi EQUI0117 Firmicutes CWBK01000065.1 2 CRU80198.1 13863 265 GCA_001175085.1 148942 1336 Streptococcus equi subsp. equi EQUI0119 Firmicutes CWBL01000061.1 2 CRU71456.1 13865 266 GCA_001176845.1 148942 1336 Streptococcus equi subsp. equi EQUI0115 Firmicutes CWBM01000065.1 2 CRU70674.1 13867 267 GCA_001175425.1 148942 1336 Streptococcus equi subsp. equi EQUI0118 Firmicutes CWBN01000062.1 2 CRU61491.1 13869 268 GCA_001175505.1 148942 1336 Streptococcus equi subsp. equi EQUI0128 Firmicutes CWBO01000044.1 2 CRU48069.1 13871 269 GCA_001178225.1 148942 1336 Streptococcus equi subsp. equi EQUI0126 Firmicutes CWBP01000061.1 2 CRU68120.1 13873 270 GCA_001175325.1 148942 1336 Streptococcus equi subsp. equi EQUI0129 Firmicutes CWBQ01000061.1 2 CRU71296.1 13875 271 GCA_001179025.1 148942 1336 Streptococcus equi subsp. equi EQUI0120 Firmicutes CWBR01000065.1 2 CRU93798.1 13877 272 GCA_001176145.1 148942 1336 Streptococcus equi subsp. equi EQUI0130 Firmicutes CWBS01000043.1 2 CRU91202.1 13879 273 GCA_001177505.1 148942 1336 Streptococcus equi subsp. equi EQUI0127 Firmicutes CWBT01000042.1 2 CRU91151.1 13881 274 GCA_001178045.1 148942 1336 Streptococcus equi subsp. equi EQUI0125 Firmicutes CWBU01000045.1 2 CRU94321.1 13883 275 GCA_001178825.1 148942 1336 Streptococcus equi subsp. equi EQUI0123 Firmicutes CWBV01000042.1 2 CRU82344.1 13885 276 GCA_001178465.1 148942 1336 Streptococcus equi subsp. equi EQUI0122 Firmicutes CWBW01000043.1 2 CRU80816.1 13887 277 GCA_001175725.1 148942 1336 Streptococcus equi subsp. equi EQUI0131 Firmicutes CWBX01000064.1 2 CRU91403.1 13889 278 GCA_001179225.1 148942 1336 Streptococcus equi subsp. equi EQUI0121 Firmicutes CWBY01000040.1 2 CRU86635.1 13891 279 GCA_001177145.1 148942 1336 Streptococcus equi subsp. equi EQUI0134 Firmicutes CWBZ01000059.1 2 CRU82566.1 13893 280 GCA_001177045.1 148942 1336 Streptococcus equi subsp. equi EQUI0136 Firmicutes CWCA01000061.1 2 CRU96729.1 13895 281 GCA_001177465.1 148942 1336 Streptococcus equi subsp. equi EQUI0139 Firmicutes CWCB01000061.1 2 CRU83052.1 13897 282 GCA_001179305.1 148942 1336 Streptococcus equi subsp. equi EQUI0140 Firmicutes CWCC01000060.1 2 CRU80987.1 13899 283 GCA_001178965.1 148942 1336 Streptococcus equi subsp. equi EQUI0141 Firmicutes CWCD01000060.1 2 CRU78242.1 13901 284 GCA_001176665.1 148942 1336 Streptococcus equi subsp. equi EQUI0132 Firmicutes CWCE01000060.1 2 CRV00464.1 13903 285 GCA_001178865.1 148942 1336 Streptococcus equi subsp. equi EQUI0124 Firmicutes CWCF01000043.1 2 CRV01108.1 13905 286 GCA_001177425.1 148942 1336 Streptococcus equi subsp. equi EQUI0137 Firmicutes CWCG01000042.1 2 CRU80203.1 13907 287 GCA_001178945.1 148942 1336 Streptococcus equi subsp. equi EQUI0142 Firmicutes CWCH01000042.1 2 CRU93107.1 13909 288 GCA_001177305.1 148942 1336 Streptococcus equi subsp. equi EQUI0135 Firmicutes CWCI01000040.1 2 CRU95695.1 13911 289 GCA_001178605.1 148942 1336 Streptococcus equi subsp. equi EQUI0143 Firmicutes CWCJ01000060.1 2 CRU99763.1 13913 290 GCA_001177685.1 148942 1336 Streptococcus equi subsp. equi EQUI0138 Firmicutes CWCK01000040.1 2 CRV05021.1 13915 291 GCA_001177125.1 148942 1336 Streptococcus equi subsp. equi EQUI0155 Firmicutes CWCL01000043.1 2 CRU97029.1 13917 292 GCA_001175205.1 148942 1336 Streptococcus equi subsp. equi EQUI0156 Firmicutes CWCM01000063.1 2 CRV01704.1 13919 293 GCA_001175265.1 148942 1336 Streptococcus equi subsp. equi EQUI0157 Firmicutes CWCN01000060.1 2 CRV11871.1 13921 294 GCA_001175605.1 148942 1336 Streptococcus equi subsp. equi EQUI0158 Firmicutes CWCO01000063.1 2 CRV20248.1 13923 295 GCA_001178525.1 148942 1336 Streptococcus equi subsp. equi EQUI0160 Firmicutes CWCP01000061.1 2 CRV16484.1 13925 296 GCA_001176005.1 148942 1336 Streptococcus equi subsp. equi EQUI0145 Firmicutes CWCQ01000042.1 2 CRV16534.1 13927 297 GCA_001178885.1 148942 1336 Streptococcus equi subsp. equi EQUI0159 Firmicutes CWCR01000064.1 2 CRV08843.1 13925 298 GCA_001176345.1 148942 1336 Streptococcus equi subsp. equi EQUI0133 Firmicutes CWCS01000043.1 2 CRV21833.1 13931 299 GCA_001178505.1 148942 1336 Streptococcus equi subsp. equi EQUI0161 Firmicutes CWCT01000071.1 2 CRV22383.1 13933 300 GCA_001177905.1 148942 1336 Streptococcus equi subsp. equi EQUI0164 Firmicutes CWCU01000062.1 2 CRV15611.1 13935 301 GCA_001179005.1 148942 1336 Streptococcus equi subsp. equi EQUI0163 Firmicutes CWCV01000063.1 2 CRV21784.1 13937 302 GCA_001179285.1 148942 1336 Streptococcus equi subsp. equi EQUI0162 Firmicutes CWCW01000068.1 2 CRV18917.1 13935 303 GCA_001175785.1 148942 1336 Streptococcus equi subsp. equi EQUI0146 Firmicutes CWCX01000062.1 2 CRV22810.1 13941 304 GCA_001178325.1 148942 1336 Streptococcus equi subsp. equi EQUI0166 Firmicutes CWCY01000063.1 2 CRV26120.1 13943 305 GCA_001177565.1 148942 1336 Streptococcus equi subsp. equi EQUI0165 Firmicutes CWCZ01000062.1 2 CRV22947.1 13945 306 GCA_001178125.1 148942 1336 Streptococcus equi subsp. equi EQUI0167 Firmicutes CWDA01000061.1 2 CRV22945.1 13947 307 GCA_001177005.1 148942 1336 Streptococcus equi subsp. equi EQUI0168 Firmicutes CWDB01000062.1 2 CRV23365.1 13945 308 GCA_001176625.1 148942 1336 Streptococcus equi subsp. equi EQUI0169 Firmicutes CWDC01000065.1 2 CRV25535.1 13951 309 GCA_001175565.1 148942 1336 Streptococcus equi subsp. equi EQUI0147 Firmicutes CWDD01000044.1 2 CRV23988.1 13953 310 GCA_001177185.1 148942 1336 Streptococcus equi subsp. equi EQUI0148 Firmicutes CWDE01000094.1 2 CRV35426.1 13955 311 GCA_001176305.1 148942 1336 Streptococcus equi subsp. equi EQUI0149 Firmicutes CWDF01000064.1 2 CRV28496.1 13957 312 GCA_001176545.1 148942 1336 Streptococcus equi subsp. equi EQUI0150 Firmicutes CWDG01000061.1 2 CRV30744.1 13955 313 GCA_001176445.1 148942 1336 Streptococcus equi subsp. equi EQUI0152 Firmicutes CWDH01000059.1 2 CRV37963.1 13961 314 GCA_001176805.1 148942 1336 Streptococcus equi subsp. equi EQUI0151 Firmicutes CWDI01000059.1 2 CRV37002.1 13963 315 GCA_001176865.1 148942 1336 Streptococcus equi subsp. equi EQUI0154 Firmicutes CWDJ01000042.1 2 CRV38823.1 13965 316 GCA_001176685.1 148942 1336 Streptococcus equi subsp. equi EQUI0153 Firmicutes CWDK01000064.1 2 CRV39782.1 13967 317 GCA_001176245.1 148942 1336 Streptococcus equi subsp. equi EQUI0170 Firmicutes CWDL01000040.1 2 CRV45924.1 13965 318 GCA_001175945.1 148942 1336 Streptococcus equi subsp. equi EQUI0171 Firmicutes CWDM01000043.1 2 CRV48900.1 13971 319 GCA_001176225.1 148942 1336 Streptococcus equi subsp. equi EQUI0172 Firmicutes CWDN01000043.1 2 CRV53138.1 13973 320 GCA_001175465.1 148942 1336 Streptococcus equi subsp. equi EQUI0174 Firmicutes CWDO01000043.1 2 CRV61840.1 13975 321 GCA_001175825.1 148942 1336 Streptococcus equi subsp. equi EQUI0173 Firmicutes CWDP01000041.1 2 CRV60058.1 13977 322 GCA_001175125.1 148942 1336 Streptococcus equi subsp. equi EQUI0175 Firmicutes CWDQ01000043.1 2 CRV55434.1 13975 323 GCA_001178265.1 148942 1336 Streptococcus equi subsp. equi EQUI0178 Firmicutes CWDR01000044.1 2 CRV60803.1 13981 324 GCA_001178665.1 148942 1336 Streptococcus equi subsp. equi EQUI0179 Firmicutes CWDS01000044.1 2 CRW03962.1 13983 325 GCA_001179365.1 148942 1336 Streptococcus equi subsp. equi EQUI0176 Firmicutes CWDT01000009.1 2 CRV54211.1 13985 326 GCA_001179165.1 148942 1336 Streptococcus equi subsp. equi EQUI0177 Firmicutes CWDU01000042.1 2 CRV83270.1 13987 327 GCA_001179385.1 148942 1336 Streptococcus equi subsp. equi EQUI0183 Firmicutes CWDV01000041.1 2 CRV91455.1 13985 328 GCA_001175445.1 148942 1336 Streptococcus equi subsp. equi EQUI0184 Firmicutes CWDW01000042.1 2 CRV92191.1 13991 329 GCA_001177165.1 148942 1336 Streptococcus equi subsp. equi EQUI0195 Firmicutes CWDX01000062.1 2 CRV87136.1 13993 330 GCA_001177325.1 148942 1336 Streptococcus equi subsp. equi EQUI0196 Firmicutes CWDY01000065.1 2 CRV84626.1 13995 331 GCA_001178985.1 148942 1336 Streptococcus equi subsp. equi EQUI0181 Firmicutes CWDZ01000042.1 2 CRW02988.1 13997 332 GCA_001178725.1 148942 1336 Streptococcus equi subsp. equi EQUI0180 Firmicutes CWEA01000042.1 2 CRV97209.1 13995 333 GCA_001177765.1 148942 1336 Streptococcus equi subsp. equi EQUI0192 Firmicutes CWEB01000061.1 2 CRW00524.1 14001 334 GCA_001179265.1 148942 1336 Streptococcus equi subsp. equi EQUI0182 Firmicutes CWEC01000045.1 2 CRW01316.1 14003 335 GCA_001178285.1 148942 1336 Streptococcus equi subsp. equi EQUI0191 Firmicutes CWED01000041.1 2 CRV92086.1 14005 336 GCA_001177705.1 148942 1336 Streptococcus equi subsp. equi EQUI0194 Firmicutes CWEE01000065.1 2 CRV95671.1 14007 337 GCA_001176085.1 148942 1336 Streptococcus equi subsp. equi EQUI0199 Firmicutes CWEF01000062.1 2 CRV97947.1 14005 338 GCA_001175045.1 148942 1336 Streptococcus equi subsp. equi EQUI0185 Firmicutes CWEG01000008.1 2 CRV78527.1 14011 339 GCA_001178645.1 148942 1336 Streptococcus equi subsp. equi EQUI0188 Firmicutes CWEH01000043.1 2 CRW03687.1 14013 340 GCA_001175025.1 148942 1336 Streptococcus equi subsp. equi EQUI0198 Firmicutes CWEI01000062.1 2 CRV92165.1 14015 341 GCA_001176465.1 148942 1336 Streptococcus equi subsp. equi EQUI0197 Firmicutes CWEJ01000060.1 2 CRV95850.1 14017 342 GCA_001175685.1 148942 1336 Streptococcus equi subsp. equi EQUI0200 Firmicutes CWEK01000061.1 2 CRV90197.1 14015 343 GCA_001176205.1 148942 1336 Streptococcus equi subsp. equi EQUI0186 Firmicutes CWEL01000046.1 2 CRW02430.1 14021 344 GCA_001175905.1 148942 1336 Streptococcus equi subsp. equi EQUI0187 Firmicutes CWEM01000042.1 2 CRW06361.1 14023 345 GCA_001175745.1 148942 1336 Streptococcus equi subsp. equi EQUI0201 Firmicutes CWEN01000063.1 2 CRW10290.1 14025 346 GCA_001176565.1 148942 1336 Streptococcus equi subsp. equi EQUI0012 Firmicutes CWEP01000057.1 2 CRV93329.1 14027 347 GCA_001178445.1 148942 1336 Streptococcus equi subsp. equi EQUI0203 Firmicutes CWEQ01000063.1 2 CRW10487.1 14029 348 GCA_001178705.1 148942 1336 Streptococcus equi subsp. equi EQUI0202 Firmicutes CWES01000061.1 2 CRW11899.1 14031 349 GCA_001179465.1 148942 1336 Streptococcus equi subsp. equi EQUI0205 Firmicutes CWEV01000037.1 2 CRW12157.1 14033 350 GCA_001178245.1 148942 1336 Streptococcus equi subsp. equi EQUI0208 Firmicutes CWEW01000061.1 2 CRW18036.1 14035 351 GCA_001177925.1 148942 1336 Streptococcus equi subsp. equi EQUI0206 Firmicutes CWEX01000064.1 2 CRW22900.1 14037 352 GCA_001177745.1 148942 1336 Streptococcus equi subsp. equi EQUI0207 Firmicutes CWEY01000063.1 2 CRW16828.1 14039 353 GCA_001176185.1 148942 1336 Streptococcus equi subsp. equi EQUI0209 Firmicutes CWEZ01000060.1 2 CRW17377.1 14041 354 GCA_001175865.1 148942 1336 Streptococcus equi subsp. equi EQUI0211 Firmicutes CWFA01000062.1 2 CRW41572.1 14043 355 GCA_001175385.1 148942 1336 Streptococcus equi subsp. equi EQUI0212 Firmicutes CWFB01000064.1 2 CRW33338.1 14045 356 GCA_001175165.1 148942 1336 Streptococcus equi subsp. equi EQUI0213 Firmicutes CWFC01000062.1 2 CRW28598.1 14047 357 GCA_001176745.1 148942 1336 Streptococcus equi subsp. equi EQUI0216 Firmicutes CWFD01000040.1 2 CRW38404.1 14049 358 GCA_001176405.1 148942 1336 Streptococcus equi subsp. equi EQUI0217 Firmicutes CWFE01000062.1 2 CRW56664.1 14051 359 GCA_001177085.1 148942 1336 Streptococcus equi subsp. equi EQUI0214 Firmicutes CWFF01000066.1 2 CRW57488.1 14053 360 GCA_001177525.1 148942 1336 Streptococcus equi subsp. equi EQUI0002 Firmicutes CWFG01000057.1 2 CRW51150.1 14055 361 GCA_001176985.1 148942 1336 Streptococcus equi subsp. equi EQUI0215 Firmicutes CWFI01000066.1 2 CRW56037.1 14057 362 GCA_001177365.1 148942 1336 Streptococcus equi subsp. equi EQUI0013 Firmicutes CWFJ01000060.1 2 CRW51019.1 14059 363 GCA_001177105.1 148942 1336 Streptococcus equi subsp. equi EQUI0014 Firmicutes CWFK01000062.1 2 CRW62422.1 14061 364 GCA_001176885.1 148942 1336 Streptococcus equi subsp. equi EQUI0015 Firmicutes CWFL01000059.1 2 CRW52635.1 14063 365 GCA_001177585.1 148942 1336 Streptococcus equi subsp. equi EQUI0016 Firmicutes CWFM01000059.1 2 CRW57925.1 14065 366 GCA_001177825.1 148942 1336 Streptococcus equi subsp. equi EQUI0017 Firmicutes CWFN01000059.1 2 CRW58490.1 14067 367 GCA_001177645.1 148942 1336 Streptococcus equi subsp. equi EQUI0018 Firmicutes CWFO01000060.1 2 CRW59062.1 14069 368 GCA_001179325.1 148942 1336 Streptococcus equi subsp. equi EQUI0019 Firmicutes CWFS01000065.1 2 CRW78794.1 14071 369 GCA_001179145.1 148942 1336 Streptococcus equi subsp. equi EQUI0020 Firmicutes CWFT01000065.1 2 CRW72044.1 14073 370 GCA_001178745.1 148942 1336 Streptococcus equi subsp. equi EQUI0021 Firmicutes CWFU01000062.1 2 CRW79959.1 14075 371 GCA_001178405.1 148942 1336 Streptococcus equi subsp. equi EQUI0022 Firmicutes CWFV01000063.1 2 CRW76315.1 14077 372 GCA_001176165.1 148942 1336 Streptococcus equi subsp. equi EQUI0023 Firmicutes CWFW01000065.1 2 CRW80108.1 14079 373 GCA_001175765.1 148942 1336 Streptococcus equi subsp. equi EQUI0024 Firmicutes CWFX01000059.1 2 CRW66993.1 14081 374 GCA_001175705.1 148942 1336 Streptococcus equi subsp. equi EQUI0025 Firmicutes CWFY01000062.1 2 CRW70529.1 14083 375 GCA_001175345.1 148942 1336 Streptococcus equi subsp. equi EQUI0026 Firmicutes CWFZ01000062.1 2 CRW76738.1 14085 376 GCA_001175065.1 148942 1336 Streptococcus equi subsp. equi EQUI0027 Firmicutes CWGA01000061.1 2 CRW76864.1 14087 377 GCA_001176485.1 148942 1336 Streptococcus equi subsp. equi EQUI0028 Firmicutes CWGB01000067.1 2 CRW80973.1 14089 378 GCA_001176285.1 148942 1336 Streptococcus equi subsp. equi EQUI0029 Firmicutes CWGC01000064.1 2 CRW81695.1 14091 379 GCA_001176585.1 148942 1336 Streptococcus equi subsp. equi EQUI0030 Firmicutes CWGD01000063.1 2 CRW77653.1 14093 380 GCA_001177945.1 148942 1336 Streptococcus equi subsp. equi EQUI0031 Firmicutes CWGE01000064.1 2 CRW79780.1 14095 381 GCA_001177445.1 148942 1336 Streptococcus equi subsp. equi EQUI0032 Firmicutes CWGF01000063.1 2 CRW80948.1 14097 382 GCA_001285185.1 562 562 Escherichia coli 102485_aEPEC Proteobacteria CYBC01000016.1 2 CTT29869.1 14099 383 GCA_001286125.1 562 562 Escherichia coli 302710 Proteobacteria CYFG01000018.1 2 CTZ05351.1 14101 384 GCA_001286985.1 1408 1408 Bacillus pumilus Firmicutes CYHK01000004.1 2 CUB16899.1 14103 385 GCA_001299055.1 1806504 1806504 Achromobacter sp. 2789STDY5608606 2789STDY5608606 Proteobacteria CYTI01000001.1 5 CUI41065.1 14105 386 GCA_001298995.1 1806492 1806492 Achromobacter sp. 2789STDY5608615 2789STDY5608615 Proteobacteria CYTY01000055.1 3 CUK22707.1 14110 387 GCA_001564615.1 1639 1639 Listeria monocytogenes LM06-00444 Firmicutes CYUX01000002.1 2 CUK50734.1 14113 388 GCA_001564675.1 1639 1639 Listeria monocytogenes LM06-00918 Firmicutes CYVA01000003.1 2 CUK61280.1 14115 389 GCA_001564895.1 1639 1639 Listeria monocytogenes LM07-01042 Firmicutes CYVK01000002.1 2 CUK91820.1 14117 390 GCA_000153885.1 411463 39496 Eubacterium ventriosum ATCC 27560 ATCC 27560 Firmicutes DS264285.1 4 EDM51055.1 14119 391 GCA_001537545.1 615 615 Serratia marcescens 2880STDY5682911 Proteobacteria FCFC01000005.1 2 CUY08442.1 14123 392 GCA_001538985.1 615 615 Serratia marcescens 2880STDY5683036 Proteobacteria FCFE01000005.1 2 CUZ68635.1 14125 393 GCA_001538605.1 615 615 Serratia marcescens 2880STDY5682822 Proteobacteria FCFF01000005.1 2 CUZ82287.1 14127 394 GCA_001537885.1 615 615 Serratia marcescens 2880STDY5682825 Proteobacteria FCFG01000007.1 2 CUZ53146.1 14129 395 GCA_001539305.1 615 615 Serratia marcescens 2880STDY5683007 Proteobacteria FCFH01000009.1 2 CVA27382.1 14131 396 GCA_001537405.1 615 615 Serratia marcescens 2880STDY5683035 Proteobacteria FCFI01000002.1 2 CUZ41368.1 14133 397 GCA_001540125.1 615 615 Serratia marcescens 2880STDY5683037 Proteobacteria FCFJ01000004.1 2 CVA08047.1 14135 398 GCA_001538905.1 615 615 Serratia marcescens 2880STDY5682814 Proteobacteria FCFK01000006.1 2 CUZ42305.1 14137 399 GCA_001537445.1 615 615 Serratia marcescens 2880STDY5683014 Proteobacteria FCFL01000006.1 2 CVA28869.1 14139 400 GCA_001539185.1 615 615 Serratia marcescens 2880STDY5683009 Proteobacteria FCFM01000003.1 2 CUZ16125.1 14141 401 GCA_001540805.1 615 615 Serratia marcescens 2880STDY5682837 Proteobacteria FCFN01000007.1 2 CUZ60995.1 14143 402 GCA_001538525.1 615 615 Serratia marcescens 2880STDY5682824 Proteobacteria FCFO01000009.1 2 CUZ90935.1 14145 403 GCA_001539805.1 615 615 Serratia marcescens 2880STDY5682834 Proteobacteria FCFP01000006.1 2 CUZ73394.1 14147 404 GCA_001538705.1 615 615 Serratia marcescens 2880STDY5683032 Proteobacteria FCFQ01000004.1 2 CVA13553.1 14149 405 GCA_001539125.1 615 615 Serratia marcescens 2880STDY5683011 Proteobacteria FCFR01000005.1 2 CVA22943.1 14151 406 GCA_001538465.1 615 615 Serratia marcescens 2880STDY5683010 Proteobacteria FCFS01000001.1 2 CUY16546.1 14153 407 GCA_001539505.1 615 615 Serratia marcescens 2880STDY5682831 Proteobacteria FCFT01000005.1 2 CUZ58663.1 14155 408 GCA_001538485.1 615 615 Serratia marcescens 2880STDY5683021 Proteobacteria FCFU01000011.1 2 CUZ73629.1 14157 409 GCA_001539785.1 615 615 Serratia marcescens 2880STDY5682827 Proteobacteria FCFV01000002.1 2 CUZ84855.1 14159 410 GCA_001537205.1 615 615 Serratia marcescens 2880STDY5682828 Proteobacteria FCFW01000002.1 2 CUZ51222.1 14161 411 GCA_001536485.1 615 615 Serratia marcescens 2880STDY5682815 Proteobacteria FCFX01000005.1 2 CVA06032.1 14163 412 GCA_001537765.1 615 615 Serratia marcescens 2880STDY5682820 Proteobacteria FCFY01000007.1 2 CUZ66191.1 14165 413 GCA_001537525.1 615 615 Serratia marcescens 2880STDY5682816 Proteobacteria FCFZ01000005.1 2 CUZ96331.1 14167 414 GCA_001540665.1 615 615 Serratia marcescens 2880STDY5683018 Proteobacteria FCGA01000006.1 2 CUZ56035.1 14169 415 GCA_001538625.1 615 615 Serratia marcescens 2880STDY5682836 Proteobacteria FCGB01000003.1 2 CUZ47627.1 14171 416 GCA_001537105.1 615 615 Serratia marcescens 2880STDY5683024 Proteobacteria FCGC01000005.1 2 CUZ65513.1 14173 417 GCA_001537145.1 615 615 Serratia marcescens 2880STDY5682819 Proteobacteria FCGD01000005.1 2 CUZ64473.1 14175 418 GCA_001539985.1 615 615 Serratia marcescens 2880STDY5683033 Proteobacteria FCGF01000007.1 2 CUZ76085.1 14177 419 GCA_001536605.1 615 615 Serratia marcescens 2880STDY5683026 Proteobacteria FCGG01000006.1 2 CVA13444.1 14179 420 GCA_001537845.1 615 615 Serratia marcescens 2880STDY5682823 Proteobacteria FCGH01000006.1 2 CVA27078.1 14181 421 GCA_001539225.1 615 615 Serratia marcescens 2880STDY5683013 Proteobacteria FCGI01000005.1 2 CVA15880.1 14183 422 GCA_001540225.1 615 615 Serratia marcescens 2880STDY5683031 Proteobacteria FCGJ01000005.1 2 CUZ46954.1 14185 423 GCA_001537565.1 615 615 Serratia marcescens 2880STDY5683034 Proteobacteria FCGK01000008.1 2 CUZ31026.1 14187 424 GCA_001539965.1 615 615 Serratia marcescens 2880STDY5682829 Proteobacteria FCGL01000002.1 2 CUZ02629.1 14189 425 GCA_001537645.1 615 615 Serratia marcescens 2880STDY5682830 Proteobacteria FCGM01000004.1 2 CUZ51326.1 14191 426 GCA_001539485.1 615 615 Serratia marcescens 2880STDY5683008 Proteobacteria FCGN01000006.1 2 CUZ55076.1 14193 427 GCA_001537285.1 615 615 Serratia marcescens 2880STDY5683022 Proteobacteria FCGO01000004.1 2 CVA20194.1 14195 428 GCA_001539645.1 615 615 Serratia marcescens 2880STDY5682838 Proteobacteria FCGP01000007.1 2 CUZ69684.1 14197 429 GCA_001538765.1 615 615 Serratia marcescens 2880STDY5682826 Proteobacteria FCGQ01000005.1 2 CUZ82709.1 14199 430 GCA_001537825.1 615 615 Serratia marcescens 2880STDY5683030 Proteobacteria FCGR01000003.1 2 CUZ92205.1 14201 431 GCA_001538195.1 615 615 Serratia marcescens 2880STDY5683020 Proteobacteria FCGS01000007.1 2 CUZ80077.1 14203 432 GCA_001540185.1 615 615 Serratia marcescens 2880STDY5682832 Proteobacteria FCGT01000002.1 2 CUZ43216.1 14205 433 GCA_001539025.1 615 615 Serratia marcescens 2880STDY5682818 Proteobacteria FCGU01000004.1 2 CVA39165.1 14207 434 GCA_001540205.1 615 615 Serratia marcescens 2880STDY5682842 Proteobacteria FCGV01000008.1 2 CVA66719.1 14209 435 GCA_001539725.1 615 615 Serratia marcescens 2880STDY5682839 Proteobacteria FCGW01000003.1 2 CUZ78091.1 14211 436 GCA_001537425.1 615 615 Serratia marcescens 2880STDY5682840 Proteobacteria FCGX01000008.1 2 CUZ53769.1 14213 437 GCA_001540725.1 615 615 Serratia marcescens 2880STDY5682844 Proteobacteria FCGY01000002.1 2 CVA07127.1 14215 438 GCA_001539705.1 615 615 Serratia marcescens 2880STDY5682843 Proteobacteria FCGZ01000005.1 2 CUZ96183.1 14217 439 GCA_001537325.1 615 615 Serratia marcescens 2880STDY5682845 Proteobacteria FCHA01000004.1 2 CVA63405.1 14219 440 GCA_001538805.1 615 615 Serratia marcescens 2880STDY5682847 Proteobacteria FCHB01000006.1 2 CVB19728.1 14221 441 GCA_001537025.1 615 615 Serratia marcescens 2880STDY5682846 Proteobacteria FCHC01000005.1 2 CVB15259.1 14223 442 GCA_001538445.1 615 615 Serratia marcescens 2880STDY5682848 Proteobacteria FCHD01000004.1 2 CVB18641.1 14225 443 GCA_001540265.1 615 615 Serratia marcescens 2880STDY5682849 Proteobacteria FCHE01000016.1 2 CVC33418.1 14227 444 GCA_001539365.1 615 615 Serratia marcescens 2880STDY5682850 Proteobacteria FCHF01000016.1 2 CVC43508.1 14229 445 GCA_001537605.1 615 615 Serratia marcescens 2880STDY5682851 Proteobacteria FCHG01000004.1 2 CVB44191.1 14231 446 GCA_001538725.1 615 615 Serratia marcescens 2880STDY5682852 Proteobacteria FCHH01000006.1 2 CVC13530.1 14233 447 GCA_001536765.1 615 615 Serratia marcescens 2880STDY5682859 Proteobacteria FCHI01000001.1 2 CVB24153.1 14235 448 GCA_001540425.1 615 615 Serratia marcescens 2880STDY5682855 Proteobacteria FCHJ01000002.1 2 CVB63296.1 14237 449 GCA_001539265.1 615 615 Serratia marcescens 2880STDY5682854 Proteobacteria FCHK01000007.1 2 CVB59022.1 14239 450 GCA_001536505.1 615 615 Serratia marcescens 2880STDY5682857 Proteobacteria FCHL01000009.1 2 CVB73355.1 14241 451 GCA_001539765.1 615 615 Serratia marcescens 2880STDY5682858 Proteobacteria FCHM01000001.1 2 CVA22576.1 14243 452 GCA_001536445.1 615 615 Serratia marcescens 2880STDY5682856 Proteobacteria FCHN01000007.1 2 CVC54922.1 14245 453 GCA_001536345.1 615 615 Serratia marcescens 2880STDY5682861 Proteobacteria FCHO01000009.1 2 CVC47630.1 14247 454 GCA_001539585.1 615 615 Serratia marcescens 2880STDY5682863 Proteobacteria FCHP01000005.1 2 CVC16906.1 14249 455 GCA_001540365.1 615 615 Serratia marcescens 2880STDY5682862 Proteobacteria FCHQ01000002.1 2 CVA94601.1 14251 456 GCA_001536465.1 615 615 Serratia marcescens 2880STDY5682864 Proteobacteria FCHR01000005.1 2 CVB98029.1 14253 457 GCA_001537225.1 615 615 Serratia marcescens 2880STDY5682866 Proteobacteria FCHS01000005.1 2 CVB27596.1 14255 458 GCA_001539885.1 615 615 Serratia marcescens 2880STDY5682865 Proteobacteria FCHT01000005.1 2 CVC12754.1 14257 459 GCA_001539845.1 615 615 Serratia marcescens 2880STDY5682867 Proteobacteria FCHU01000005.1 2 CVB94192.1 14259 460 GCA_001538425.1 615 615 Serratia marcescens 2880STDY5682868 Proteobacteria FCHV01000005.1 2 CVC34459.1 14261 461 GCA_001537485.1 615 615 Serratia marcescens 2880STDY5682869 Proteobacteria FCHW01000006.1 2 CVC37208.1 14263 462 GCA_001540525.1 615 615 Serratia marcescens 2880STDY5682870 Proteobacteria FCHX01000005.1 2 CVC09911.1 14265 463 GCA_001537245.1 615 615 Serratia marcescens 2880STDY5682871 Proteobacteria FCHY01000004.1 2 CVB52010.1 14267 464 GCA_001537345.1 615 615 Serratia marcescens 2880STDY5682872 Proteobacteria FCHZ01000007.1 2 CVB83712.1 14269 465 GCA_001536985.1 615 615 Serratia marcescens 2880STDY5682874 Proteobacteria FCIA01000006.1 2 CVB86127.1 14271 466 GCA_001539925.1 615 615 Serratia marcescens 2880STDY5682875 Proteobacteria FCIB01000006.1 2 CVC63966.1 14273 467 GCA_001539425.1 615 615 Serratia marcescens 2880STDY5682877 Proteobacteria FCIC01000002.1 2 CVB86015.1 14275 468 GCA_001537465.1 615 615 Serratia marcescens 2880STDY5682878 Proteobacteria FCID01000006.1 2 CVC85484.1 14277 469 GCA_001540385.1 615 615 Serratia marcescens 2880STDY5682880 Proteobacteria FCIE01000007.1 2 CVC33567.1 14279 470 GCA_001540605.1 615 615 Serratia marcescens 2880STDY5682879 Proteobacteria FCIF01000008.1 2 CVC90980.1 14281 471 GCA_001537665.1 615 615 Serratia marcescens 2880STDY5682881 Proteobacteria FCIG01000006.1 2 CVC23364.1 14283 472 GCA_001539345.1 615 615 Serratia marcescens 2880STDY5682884 Proteobacteria FCIH01000009.1 2 CVC01499.1 14285 473 GCA_001540625.1 615 615 Serratia marcescens 2880STDY5682885 Proteobacteria FCII01000005.1 2 CVC17928.1 14287 474 GCA_001536685.1 615 615 Serratia marcescens 2880STDY5682882 Proteobacteria FCIJ01000008.1 2 CVC49211.1 14289 475 GCA_001538825.1 615 615 Serratia marcescens 2880STDY5682883 Proteobacteria FCIK01000010.1 2 CVD13430.1 14291 476 GCA_001538365.1 615 615 Serratia marcescens 2880STDY5682887 Proteobacteria FCIL01000005.1 2 CVC16315.1 14293 477 GCA_001539745.1 615 615 Serratia marcescens 2880STDY5682889 Proteobacteria FCIM01000006.1 2 CVC38417.1 14295 478 GCA_001538345.1 615 615 Serratia marcescens 2880STDY5682888 Proteobacteria FCIN01000006.1 2 CVC81451.1 14297 479 GCA_001540765.1 615 615 Serratia marcescens 2880STDY5682892 Proteobacteria FCIO01000006.1 2 CVC81532.1 14299 480 GCA_001540325.1 615 615 Serratia marcescens 2880STDY5682891 Proteobacteria FCIP01000007.1 2 CVC86644.1 14301 481 GCA_001540305.1 615 615 Serratia marcescens 2880STDY5682890 Proteobacteria FCIQ01000005.1 2 CVC98809.1 14303 482 GCA_001539565.1 615 615 Serratia marcescens 2880STDY5682893 Proteobacteria FCIR01000006.1 2 CVC91105.1 14305 483 GCA_001540105.1 615 615 Serratia marcescens 2880STDY5682902 Proteobacteria FCIS01000005.1 2 CVC94637.1 14307 484 GCA_001539865.1 615 615 Serratia marcescens 2880STDY5682903 Proteobacteria FCIT01000007.1 2 CVC52261.1 14309 485 GCA_001539085.1 615 615 Serratia marcescens 2880STDY5682904 Proteobacteria FCIU01000005.1 2 CVC98188.1 14311 486 GCA_001537065.1 615 615 Serratia marcescens 2880STDY5682905 Proteobacteria FCIV01000001.1 2 CVB21709.1 14313 487 GCA_001536725.1 615 615 Serratia marcescens 2880STDY5682906 Proteobacteria FCIW01000004.1 2 CVC48171.1 14315 488 GCA_001538645.1 615 615 Serratia marcescens 2880STDY5682907 Proteobacteria FCIX01000005.1 2 CVC71605.1 14317 489 GCA_001539145.1 615 615 Serratia marcescens 2880STDY5682908 Proteobacteria FCIY01000004.1 2 CVC84156.1 14319 490 GCA_001539385.1 615 615 Serratia marcescens 2880STDY5682913 Proteobacteria FCIZ01000002.1 2 CVC59811.1 14321 491 GCA_001537385.1 1805636 1805636 Serratia sp. 2880STDY5682894 2880STDY5682894 Proteobacteria FCJA01000011.1 2 CVE09029.1 14323 492 GCA_001537125.1 615 615 Serratia marcescens 2880STDY5682916 Proteobacteria FCJB01000006.1 2 CVD69842.1 14325 493 GCA_001540245.1 615 615 Serratia marcescens 2880STDY5682918 Proteobacteria FCJC01000003.1 2 CVD51978.1 14327 494 GCA_001540285.1 615 615 Serratia marcescens 2880STDY5682917 Proteobacteria FCJD01000005.1 2 CVD94616.1 14329 495 GCA_001540485.1 615 615 Serratia marcescens 2880STDY5682919 Proteobacteria FCJE01000006.1 2 CVD41075.1 14331 496 GCA_001539245.1 615 615 Serratia marcescens 2880STDY5682921 Proteobacteria FCJF01000005.1 2 CVD28911.1 14333 497 GCA_001537185.1 615 615 Serratia marcescens 2880STDY5682924 Proteobacteria FCJG01000001.1 2 CVC37101.1 14335 498 GCA_001537625.1 615 615 Serratia marcescens 2880STDY5682926 Proteobacteria FCJH01000006.1 2 CVE33560.1 14337 499 GCA_001536385.1 615 615 Serratia marcescens 2880STDY5682927 Proteobacteria FCJI01000001.1 2 CVC40389.1 14339 500 GCA_001536405.1 615 615 Serratia marcescens 2880STDY5682928 Proteobacteria FCJJ01000009.1 2 CVE27784.1 14341 501 GCA_001536845.1 615 615 Serratia marcescens 2880STDY5682929 Proteobacteria FCJK01000007.1 2 CVE60658.1 14343 502 GCA_001537265.1 1805637 1805637 Serratia sp. 2880STDY5682895 2880STDY5682895 Proteobacteria FCJL01000004.1 2 CVE69225.1 14345 503 GCA_001540145.1 615 615 Serratia marcescens 2880STDY5682932 Proteobacteria FCJM01000004.1 2 CVE06185.1 14347 504 GCA_001538885.1 615 615 Serratia marcescens 2880STDY5682931 Proteobacteria FCJN01000006.1 2 CVE70644.1 14349 505 GCA_001538945.1 615 615 Serratia marcescens 2880STDY5682933 Proteobacteria FCJO01000002.1 2 CVD68108.1 14351 506 GCA_001539285.1 615 615 Serratia marcescens 2880STDY5682936 Proteobacteria FCJP01000008.1 2 CVE19652.1 14353 507 GCA_001538965.1 615 615 Serratia marcescens 2880STDY5682938 Proteobacteria FCJQ01000005.1 2 CVE94858.1 14355 508 GCA_001538745.1 615 615 Serratia marcescens 2880STDY5682934 Proteobacteria FCJR01000005.1 2 CVE73969.1 14357 509 GCA_001539405.1 615 615 Serratia marcescens 2880STDY5682937 Proteobacteria FCJS01000004.1 2 CVE69307.1 14359 510 GCA_001540745.1 615 615 Serratia marcescens 2880STDY5682896 Proteobacteria FCJU01000008.1 2 CVD84033.1 14361 511 GCA_001540025.1 615 615 Serratia marcescens 2880STDY5682940 Proteobacteria FCJV01000010.1 2 CVE29057.1 14363 512 GCA_001539625.1 615 615 Serratia marcescens 2880STDY5682943 Proteobacteria FCJW01000006.1 2 CVD89429.1 14365 513 GCA_001536965.1 615 615 Serratia marcescens 2880STDY5682942 Proteobacteria FCJX01000004.1 2 CVE62947.1 14367 514 GCA_001538505.1 615 615 Serratia marcescens 2880STDY5682945 Proteobacteria FCJY01000006.1 2 CVE95724.1 14369 515 GCA_001538005.1 615 615 Serratia marcescens 2880STDY5682947 Proteobacteria FCJZ01000006.1 2 CVF11414.1 14371 516 GCA_001537005.1 615 615 Serratia marcescens 2880STDY5682951 Proteobacteria FCKA01000009.1 2 CVF28618.1 14373 517 GCA_001536895.1 615 615 Serratia marcescens 2880STDY5682950 Proteobacteria FCKB01000001.1 2 CVC97408.1 14375 518 GCA_001537365.1 615 615 Serratia marcescens 2880STDY5682897 Proteobacteria FCKC01000002.1 2 CVD52669.1 14377 519 GCA_001536525.1 615 615 Serratia marcescens 2880STDY5682952 Proteobacteria FCKD01000005.1 2 CVE22718.1 14379 520 GCA_001539545.1 615 615 Serratia marcescens 2880STDY5682953 Proteobacteria FCKE01000005.1 2 CVE97488.1 14381 521 GCA_001539665.1 615 615 Serratia marcescens 2880STDY5682954 Proteobacteria FCKF01000005.1 2 CVF28196.1 14383 522 GCA_001536325.1 615 615 Serratia marcescens 2880STDY5682955 Proteobacteria FCKG01000004.1 2 CVE60557.1 14385 523 GCA_001539325.1 615 615 Serratia marcescens 2880STDY5682956 Proteobacteria FCKH01000006.1 2 CVE66029.1 14387 524 GCA_001540825.1 615 615 Serratia marcescens 2880STDY5682957 Proteobacteria FCKI01000006.1 2 CVF01432.1 14389 525 GCA_001540005.1 615 615 Serratia marcescens 2880STDY5682958 Proteobacteria FCKJ01000007.1 2 CVE93279.1 14391 526 GCA_001536625.1 615 615 Serratia marcescens 2880STDY5682959 Proteobacteria FCKK01000007.1 2 CVF50179.1 14393 527 GCA_001539905.1 615 615 Serratia marcescens 2880STDY5682961 Proteobacteria FCKL01000003.1 2 CVF09863.1 14395 528 GCA_001536665.1 615 615 Serratia marcescens 2880STDY5682960 Proteobacteria FCKM01000009.1 2 CVE63433.1 14397 529 GCA_001539205.1 615 615 Serratia marcescens 2880STDY5682962 Proteobacteria FCKN01000002.1 2 CVE05426.1 14399 530 GCA_001540685.1 615 615 Serratia marcescens 2880STDY5682899 Proteobacteria FCKO01000003.1 2 CVE67637.1 14401 531 GCA_001539945.1 615 615 Serratia marcescens 2880STDY5682963 Proteobacteria FCKP01000005.1 2 CVE73588.1 14403 532 GCA_001536705.1 615 615 Serratia marcescens 2880STDY5682964 Proteobacteria FCKQ01000006.1 2 CVF13093.1 14405 533 GCA_001539445.1 615 615 Serratia marcescens 2880STDY5682965 Proteobacteria FCKR01000003.1 2 CVE92971.1 14407 534 GCA_001538685.1 615 615 Serratia marcescens 2880STDY5682967 Proteobacteria FCKS01000007.1 2 CVF15693.1 14409 535 GCA_001536945.1 615 615 Serratia marcescens 2880STDY5682966 Proteobacteria FCKT01000001.1 2 CVE70328.1 14411 536 GCA_001538405.1 615 615 Serratia marcescens 2880STDY5682968 Proteobacteria FCKU01000005.1 2 CVF77852.1 14413 537 GCA_001538115.1 615 615 Serratia marcescens 2880STDY5682971 Proteobacteria FCKV01000009.1 2 CVF08013.1 14415 538 GCA_001540545.1 615 615 Serratia marcescens 2880STDY5682969 Proteobacteria FCKW01000004.1 2 CVF84175.1 14417 539 GCA_001540345.1 615 615 Serratia marcescens 2880STDY5682970 Proteobacteria FCKX01000005.1 2 CVF82181.1 14419 540 GCA_001540705.1 615 615 Serratia marcescens 2880STDY5682973 Proteobacteria FCKZ01000006.1 2 CVG26740.1 14421 541 GCA_001537585.1 615 615 Serratia marcescens 2880STDY5682974 Proteobacteria FCLA01000006.1 2 CVG63931.1 14423 542 GCA_001540445.1 615 615 Serratia marcescens 2880STDY5682976 Proteobacteria FCLB01000006.1 2 CVG49466.1 14425 543 GCA_001536645.1 615 615 Serratia marcescens 2880STDY5682977 Proteobacteria FCLC01000007.1 2 CVF96122.1 14427 544 GCA_001538585.1 615 615 Serratia marcescens 2880STDY5682979 Proteobacteria FCLD01000006.1 2 CVG60878.1 14429 545 GCA_001539825.1 615 615 Serratia marcescens 2880STDY5682978 Proteobacteria FCLE01000011.1 2 CVG18609.1 14431 546 GCA_001536365.1 615 615 Serratia marcescens 2880STDY5682980 Proteobacteria FCLF01000004.1 2 CVG60220.1 14433 547 GCA_001540505.1 615 615 Serratia marcescens 2880STDY5682982 Proteobacteria FCLG01000005.1 2 CVG00307.1 14435 548 GCA_001540045.1 615 615 Serratia marcescens 2880STDY5682981 Proteobacteria FCLH01000005.1 2 CVG18150.1 14437 549 GCA_001539685.1 615 615 Serratia marcescens 2880STDY5682983 Proteobacteria FCLI01000006.1 2 CVG66356.1 14439 550 GCA_001539605.1 615 615 Serratia marcescens 2880STDY5682984 Proteobacteria FCLJ01000002.1 2 CVF82688.1 14441 551 GCA_001564475.1 615 615 Serratia marcescens 2880STDY5682985 Proteobacteria FCLK01000006.1 2 CVG27221.1 14443 552 GCA_001537705.1 615 615 Serratia marcescens 2880STDY5682986 Proteobacteria FCLL01000011.1 2 CVH08342.1 14445 553 GCA_001540785.1 615 615 Serratia marcescens 2880STDY5682987 Proteobacteria FCLM01000006.1 2 CVG82373.1 14447 554 GCA_001540065.1 615 615 Serratia marcescens 2880STDY5682990 Proteobacteria FCLN01000007.1 2 CVG89997.1 14449 555 GCA_001540585.1 615 615 Serratia marcescens 2880STDY5682991 Proteobacteria FCLO01000004.1 2 CVG75154.1 14451 556 GCA_001536745.1 615 615 Serratia marcescens 2880STDY5682992 Proteobacteria FCLP01000006.1 2 CVG91933.1 14453 557 GCA_001538865.1 615 615 Serratia marcescens 2880STDY5682993 Proteobacteria FCLQ01000006.1 2 CVG61761.1 14455 558 GCA_001536545.1 615 615 Serratia marcescens 2880STDY5682994 Proteobacteria FCLR01000006.1 2 CVG55708.1 14457 559 GCA_001537925.1 615 615 Serratia marcescens 2880STDY5682995 Proteobacteria FCLS01000005.1 2 CVG99558.1 14459 560 GCA_001538925.1 615 615 Serratia marcescens 2880STDY5682901 Proteobacteria FCLT01000009.1 2 CVG85830.1 14461 561 GCA_001538845.1 615 615 Serratia marcescens 2880STDY5682996 Proteobacteria FCLU01000006.1 2 CVH13287.1 14463 562 GCA_001536425.1 615 615 Serratia marcescens 2880STDY5682998 Proteobacteria FCLV01000007.1 2 CVH22095.1 14465 563 GCA_001540165.1 615 615 Serratia marcescens 2880STDY5682997 Proteobacteria FCLW01000007.1 2 CVG79620.1 14467 564 GCA_001540565.1 615 615 Serratia marcescens 2880STDY5683002 Proteobacteria FCLX01000006.1 2 CVH31735.1 14469 565 GCA_001537085.1 615 615 Serratia marcescens 2880STDY5683001 Proteobacteria FCLY01000002.1 2 CVG61510.1 14471 566 GCA_001539005.1 615 615 Serratia marcescens 2880STDY5682873 Proteobacteria FCLZ01000001.1 2 CVF47731.1 14473 567 GCA_001538565.1 615 615 Serratia marcescens 2880STDY5683004 Proteobacteria FCMA01000007.1 2 CVH23270.1 14475 568 GCA_001537745.1 615 615 Serratia marcescens 2880STDY5683003 Proteobacteria FCMB01000010.1 2 CVG86995.1 14477 569 GCA_001538385.1 615 615 Serratia marcescens 2880STDY5682835 Proteobacteria FCMC01000007.1 2 CVG92563.1 14479 570 GCA_001537685.1 615 615 Serratia marcescens 2880STDY5682853 Proteobacteria FCMD01000007.1 2 CVH34087.1 14481 571 GCA_001537905.1 615 615 Serratia marcescens 2880STDY5682876 Proteobacteria FCME01000005.1 2 CVG73776.1 14483 572 GCA_001537505.1 615 615 Serratia marcescens 2880STDY5682898 Proteobacteria FCMF01000005.1 2 CVH31066.1 14485 573 GCA_001538275.1 615 615 Serratia marcescens 2880STDY5682912 Proteobacteria FCMG01000007.1 2 CVH30715.1 14487 574 GCA_001537045.1 615 615 Serratia marcescens 2880STDY5682914 Proteobacteria FCMH01000006.1 2 CVG97897.1 14489 575 GCA_001540465.1 615 615 Serratia marcescens 2880STDY5682915 Proteobacteria FCMI01000011.1 2 CVH42932.1 14491 576 GCA_001540085.1 615 615 Serratia marcescens 2880STDY5682925 Proteobacteria FCMJ01000003.1 2 CVH11685.1 14493 577 GCA_001536585.1 615 615 Serratia marcescens 2880STDY5682922 Proteobacteria FCMK01000007.1 2 CVH39732.1 14495 578 GCA_001537305.1 615 615 Serratia marcescens 2880STDY5682930 Proteobacteria FCML01000005.1 2 CVH33868.1 14497 579 GCA_001538325.1 615 615 Serratia marcescens 2880STDY5682939 Proteobacteria FCMM01000005.1 2 CVG91272.1 14499 580 GCA_001537165.1 615 615 Serratia marcescens 2880STDY5682944 Proteobacteria FCMN01000005.1 2 CVH37766.1 14501 581 GCA_001540405.1 615 615 Serratia marcescens 2880STDY5682948 Proteobacteria FCMO01000007.1 2 CVH21028.1 14503 582 GCA_001537865.1 615 615 Serratia marcescens 2880STDY5682949 Proteobacteria FCMP01000001.1 2 CVG01710.1 14505 583 GCA_001538665.1 615 615 Serratia marcescens 2880STDY5682975 Proteobacteria FCMQ01000009.1 2 CVH35272.1 14507 584 GCA_001536565.1 615 615 Serratia marcescens 2880STDY5682999 Proteobacteria FCMS01000001.1 2 CVH07248.1 14509 585 GCA_001539465.1 615 615 Serratia marcescens 2880STDY5683000 Proteobacteria FCMT01000008.1 2 CVH30929.1 14511 586 GCA_001537805.1 615 615 Serratia marcescens 2880STDY5683016 Proteobacteria FCMU01000006.1 2 CVH50698.1 14513 587 GCA_001539525.1 615 615 Serratia marcescens 2880STDY5683027 Proteobacteria FCMV01000005.1 2 CVH40520.1 14515 588 GCA_001539105.1 615 615 Serratia marcescens 2880STDY5683015 Proteobacteria FCMW01000009.1 2 CVH64627.1 14517 589 GCA_001537785.1 615 615 Serratia marcescens 2880STDY5683006 Proteobacteria FCMX01000005.1 2 CVH70545.1 14519 590 GCA_001540645.1 615 615 Serratia marcescens 2880STDY5683019 Proteobacteria FCMY01000005.1 2 CVH72214.1 14521 591 GCA_001538545.1 615 615 Serratia marcescens 2880STDY5683017 Proteobacteria FCMZ01000004.1 2 CVH65591.1 14523 592 GCA_001544575.1 1353886 1353886 Burkholderia cordobensis Proteobacteria FCNY01000004.1 2 CVJ13885.1 14525 593 GCA_001544455.1 196367 196367 Paraburkholderia sordidicola Proteobacteria FCOC01000002.1 3 CVJ11200.1 14527 594 GCA_001544535.1 326476 326476 Paraburkholderia choica Proteobacteria FCON01000032.1 2 CVJ34937.1 14530 595 GCA_900022065.1 1639 1639 Listeria monocytogenes 2842STDY5753889 Firmicutes FFEW01000009.1 2 CWV39688.1 14532 596 GCA_900034805.1 1639 1639 Listeria monocytogenes 2842STDY5753890 Firmicutes FFGS01000008.1 2 CWW37500.1 14534 597 GCA_900051225.1 1313 1313 Streptococcus pneumoniae 2245STDY5982743 Firmicutes FHVI01000002.1 3 CYO51328.1 14536 598 GCA_900059415.1 1307 1307 Streptococcus suis LSS12 Firmicutes FIFP01000001.1 2 CYT98259.1 14539 599 GCA_900049685.1 1307 1307 Streptococcus suis FX275 Firmicutes FISX01000005.1 3 CZB10988.1 14541 600 GCA_900058075.1 1307 1307 Streptococcus suis FX483_3 Firmicutes FITF01000040.1 3 CZB35771.1 14544 601 GCA_900050515.1 1313 1313 Streptococcus pneumoniae 72D37909 Firmicutes FIWN01000018.1 2 CZD24115.1 14547 602 GCA_900052575.1 1313 1313 Streptococcus pneumoniae D30716 Firmicutes FIXA01000003.1 2 CZC77630.1 14549 603 GCA_900049745.1 1313 1313 Streptococcus pneumoniae A32279 Firmicutes FIXS01000003.1 2 CZD72536.1 14551 604 GCA_900051625.1 1313 1313 Streptococcus pneumoniae C14560X Firmicutes FIXT01000039.1 2 CZE23674.1 14553 605 GCA_000026585.1 553482 1336 Streptococcus equi subsp. equi 4047 Firmicutes FM204883.1 2 CAW93164.1 14555 4047 606 GCA_000209955.1 657317 39491 [Eubacterium] rectale M104/1 M104/1 Firmicutes FP929043.1 2 CBK94114.1 14557 607 GCA_000236925.1 985002 985002 Staphylococcus argenteus MSHR1132 Firmicutes FR821777.2 3 CCE59808.1 14559 608 GCA_000435855.1 1262967 1262967 Ruminococcus sp. CAG:9 Firmicutes FR896087.1 3 CDD80086.1 14562 609 GCA_000156515.1 553973 89153 [Clostridium] hylemonae DSM 15053 DSM 15053 Firmicutes GG657761.1 2 EEG72544.1 14565 610 GCA_000160115.1 626523 177972 Shuttleworthia satelles DSM 14600 DSM 14600 Firmicutes GG665867.1 4 EEP27313.1 14567 611 GCA_000159095.1 525255 33036 Anaerococcus tetradius ATCC 35098 ATCC 35098 Firmicutes GG666297.1 2 EEI83075.1 14571 612 GCA_000157535.1 565657 1352 Enterococcus faecium 1,231,502 1,231,502 Firmicutes GG688488.1 3 EEV44995.1 14573 613 GCA_000159955.1 621372 652715 Paenibacillus sp. oral taxon 786 str. D14 D14 Firmicutes GG695991.1 2 EES71591.1 14576 614 GCA_000162075.1 575587 40215 Acinetobacter junii SH205 SH205 Proteobacteria GG705011.1 3 EEY94494.1 14578 615 GCA_000148025.1 749520 1352 Enterococcus faecium TX0082 TX0082 Firmicutes GL455872.1 3 EFS10290.1 14581 616 GCA_000195045.1 888818 1305 Streptococcus sanguinis SK408 SK408 Firmicutes GL878559.1 3 EGF19709.1 14584 617 GCA_000213555.1 742766 156974 Dysgonomonas gadei ATCC BAA-286 ATCC BAA-286 Bacteroidetes GL891989.1 3 EGK00063.1 14587 618 GCA_000328705.1 1179773 103731 Saccharothrix espanaensis DSM 44229 type strain: Actinobacteria HE804045.1 2 CCH29383.1 14590 DSM 44229 619 GCA_000313065.1 1208659 518 Bordetella bronchiseptica Bbr77 Bbr77 Proteobacteria HE983628.1 2 CCN04569.1 14592 620 GCA_000513215.1 273526 615 Serratia marcescens subsp. marcescens Db11 Db11 Proteobacteria HG326223.1 2 CDG13494.1 14594 621 GCA_000736695.1 1398204 40576 Xenorhabdus bovienii str. kraussei Becker kraussei Becker Proteobacteria HG428180.1 2 CDH26046.1 14596 Underwood Underwood 622 GCA_000632355.1 1442605 1352 Enterococcus faecium VSE1036 VSE1036 Firmicutes JAAJ01000002.1 3 EZP94706.1 14598 623 GCA_000632295.1 1442604 1352 Enterococcus faecium VRE0576 VRE0576 Firmicutes JAAK01000036.1 3 EZP99085.1 14601 624 GCA_000632315.1 1442606 1352 Enterococcus faecium VRE1044 VRE1044 Firmicutes JAAL01000002.1 3 EZP92278.1 14604 625 GCA_000523375.1 1449358 670 Vibrio parahaemolyticus M0605 M0605 Proteobacteria JALL01000080.1 2 ETZ11576.1 14607 626 GCA_000633575.2 1450518 440518 Sphingobium lucknowense F2 F2 Proteobacteria JANF02000091.1 2 KER34865.1 14609 627 GCA_000564995.1 1190620 1190620 Atopobium sp. ICM42b ICM42b Actinobacteria JDFH01000020.1 2 EWC94460.1 14611 628 GCA_001589275.1 56 56 Sorangium cellulosum So0003-19-2 Proteobacteria JELZ01001521.1 2 KYF75625.1 14613 629 GCA_001589185.1 56 56 Sorangium cellulosum So0011-07 Proteobacteria JEMB01003116.1 2 KYF75483.1 14615 630 GCA_000581895.1 1310692 470 Acinetobacter baumannii 532279 532279 Proteobacteria JEYH01000003.1 6 EXE88617.1 14617 631 GCA_000695685.1 212667 212667 Vibrio fortis Dalian14 Proteobacteria JFFR01000027.1 2 KDN26971.1 14623 632 GCA_000705595.1 1408224 194963 Sinorhizobium americanum CCGM7 CCGM7 Proteobacteria JFG001000039.1 3 KEC78309.1 14625 633 GCA_000689815.1 1331227 518 Bordetella bronchiseptica MBORD675 MBORD675 Proteobacteria JGX001000020.1 2 KDC94426.1 14628 634 GCA_000227315.1 997350 33030 Peptoniphilus indolicus ATCC 29427 ATCC 29427 Firmicutes JH165061.1 2 EGY80387.1 14630 635 GCA_000234335.1 543736 37919 Rhodococcus opacus PD630 PD630 Actinobacteria JH377359.1 2 EHI41035.1 14632 636 GCA_000235505.1 742737 154046 Hungatella hathewayi WAL-18680 WAL-18680 Firmicutes JH379027.1 2 EHI61291.1 14634 637 GCA_000243215.1 742817 626933 Odoribacter laneus YIT 12061 YIT 12061 Bacteroidetes JH594596.1 3 EHP50820.1 14636 638 GCA_000245755.1 883114 40091 Helcococcus kunzii ATCC 51366 ATCC 51366 Firmicutes JH601089.1 2 EHR31702.1 14639 639 GCA_000273035.1 997875 357276 Bacteroides dorei CL02T00C15 CL02T00C15 Bacteroidetes JH724115.1 4 EIY18768.1 14641 640 GCA_000273055.1 997876 357276 Bacteroides dorei CL02T12C06 CL02T12C06 Bacteroidetes JH724132.1 4 EIY40460.1 14645 641 GCA_000273765.1 997880 817 Bacteroides fragilis CL05T00C42 CL05T00C42 Bacteroidetes JH724188.1 2 EIY98048.1 14649 642 GCA_000273765.1 997880 817 Bacteroides fragilis CL05T00C42 CL05T00C42 Bacteroidetes JH724189.1 2 EIY91470.1 14651 643 GCA_000273765.1 997880 817 Bacteroides fragilis CL05T00C42 CL05T00C42 Bacteroidetes JH724190.1 2 EIY90206.1 14653 644 GCA_000273135.1 997881 817 Bacteroides fragilis CL05T12C13 CL05T12C13 Bacteroidetes JH724193.1 2 EIY98754.1 14655 645 GCA_000273135.1 997881 817 Bacteroides fragilis CL05T12C13 CL05T12C13 Bacteroidetes JH724195.1 2 EIY95127.1 14657 646 GCA_000273135.1 997881 817 Bacteroides fragilis CL05T12C13 CL05T12C13 Bacteroidetes JH724196.1 2 EIY94597.1 14659 647 GCA_000273135.1 997881 817 Bacteroides fragilis CL05T12C13 CL05T12C13 Bacteroidetes JH724198.1 2 EIY90857.1 14661 648 GCA_000290655.1 1053250 1396 Bacillus cereus VDM062 VDM062 Firmicutes JH791805.1 2 EJS10770.1 14663 649 GCA_000290695.1 1053247 1396 Bacillus cereus VDM022 VDM022 Firmicutes JH791837.1 2 EJS00271.1 14665 650 GCA_000291275.1 1053222 1396 Bacillus cereus MSX-D12 MSX-D12 Firmicutes JH792019.1 3 EJR09240.1 14667 651 GCA_000293705.1 1053201 1396 Bacillus cereus HuA2-1 HuA2-1 Firmicutes JH804676.1 2 EJV74397.1 14670 652 GCA_000293985.2 1134784 1351 Enterococcus faecalis 599 599 Firmicutes JH805574.1 3 EJU93680.1 14672 653 GCA_000294835.2 1134840 1352 Enterococcus faecium S447 S447 Firmicutes JH806853.1 3 EJX46905.1 14675 654 GCA_000294955.2 1134834 1352 Enterococcus faecium R446 R446 Firmicutes JH808093.1 3 EJX62525.1 14678 655 GCA_000294975.2 1134833 1352 Enterococcus faecium P1986 P1986 Firmicutes JH808384.1 3 EJX62294.1 14681 656 GCA_000294915.2 1134836 1352 Enterococcus faecium R496 R496 Firmicutes JH808647.1 3 EJX50428.1 14684 657 GCA_000295015.1 1134831 1352 Enterococcus faecium P1140 P1140 Firmicutes JH809135.1 3 EJX67854.1 14687 658 GCA_000295075.2 1134823 1352 Enterococcus faecium ERV168 ERV168 Firmicutes JH809674.1 3 EJX96647.1 14690 659 GCA_000295235.2 1134822 1352 Enterococcus faecium ERV165 ERV165 Firmicutes JH811082.1 3 EJX94481.1 14693 660 GCA_000295255.2 1134821 1352 Enterococcus faecium ERV161 ERV161 Firmicutes JH811267.1 3 EJX98618.1 14696 661 GCA_000295355.2 1134820 1352 Enterococcus faecium ERV102 ERV102 Firmicutes JH811829.1 3 EJY06338.1 14699 662 GCA_000295395.2 1134816 1352 Enterococcus faecium C621 C621 Firmicutes JH813401.1 3 EJY12738.1 14702 663 GCA_000295455.2 1134818 1352 Enterococcus faecium E422 E422 Firmicutes JH814230.1 3 EJY15300.1 14705 664 GCA_000298035.1 1073385 654 Aeromonas veronii AMC35 AMC35 Proteobacteria JH815589.1 3 EKB22093.1 14708 665 GCA_000302795.1 1154761 317 Pseudomonas syringae pv. avellanae str. ISPaVe013 Proteobacteria JH951825.1 2 EKG43671.1 14711 ISPaVe013 666 GCA_000601255.1 1444050 562 Escherichia coli 1-176-05_S1_C1 1-176-05_S1_C1 Proteobacteria JHDH01000118.1 2 EYD87721.1 14713 667 GCA_000682795.1 1413578 1280 Staphylococcus aureus ZTA11/03130-3ST ZTA11/03130-3ST Firmicutes JIFC01000010.1 3 EZR33643.1 14715 668 GCA_000682815.1 1413583 1280 Staphylococcus aureus ZTA09/03739-9HSA ZTA09/03739-9HSA Firmicutes JIFJ01000017.1 3 EZR32908.1 14718 669 GCA_000682835.1 1413575 1280 Staphylococcus aureus ZTA09/03576-9HST ZTA09/03576-9HST Firmicutes JIFL01000015.1 3 EZR32079.1 14721 670 GCA_000682855.1 1422806 1280 Staphylococcus aureus VET1918S VET1918S Firmicutes JIFS01000014.1 3 EZR40124.1 14724 671 GCA_000682875.1 1422751 1280 Staphylococcus aureus VET1915R VET1915R Firmicutes JIFU01000012.1 3 EZR39627.1 14727 672 GCA_000682895.1 1422746 1280 Staphylococcus aureus VET1910R VET1910R Firmicutes JIFZ01000014.1 3 EZR44611.1 14730 673 GCA_000682915.1 1422743 1280 Staphylococcus aureus VET1907R VET1907R Firmicutes JIGC01000014.1 3 EZR45907.1 14733 674 GCA_000682935.1 1422737 1280 Staphylococcus aureus VET1898R VET1898R Firmicutes JIGI01000039.1 3 EZR45668.1 14736 675 GCA_000682955.1 1422735 1280 Staphylococcus aureus VET1896R VET1896R Firmicutes JIGK01000023.1 3 EZR50025.1 14739 676 GCA_000682975.1 1422726 1280 Staphylococcus aureus VET1876R VET1876R Firmicutes JIGT01000015.1 3 EZR55035.1 14742 677 GCA_000682995.1 1422721 1280 Staphylococcus aureus VET1869R VET1869R Firmicutes JIGY01000015.1 3 EZR57945.1 14745 678 GCA_000683015.1 1422713 1280 Staphylococcus aureus VET1858R VET1858R Firmicutes JIHG01000011.1 3 EZR61549.1 14748 679 GCA_000683035.1 1422699 1280 Staphylococcus aureus VET1842R VET1842R Firmicutes JIHU01000011.1 3 EZR61336.1 14751 680 GCA_000683055.1 1422694 1280 Staphylococcus aureus VET1833R VET1833R Firmicutes JIHZ01000024.1 3 EZR64331.1 14754 681 GCA_000683075.1 1422793 1280 Staphylococcus aureus VET1515S VET1515S Firmicutes JIIN01000014.1 3 EZR68241.1 14757 682 GCA_000683095.1 1422788 1280 Staphylococcus aureus VET1422S VET1422S Firmicutes JIIS01000014.1 3 EZR69014.1 14760 683 GCA_000683115.1 1422787 1280 Staphylococcus aureus VET1419S VET1419S Firmicutes JIIT01000011.1 3 EZR71841.1 14763 684 GCA_000683175.1 1422779 1280 Staphylococcus aureus VET1103S VET1103S Firmicutes JIJB01000012.1 3 EZR76991.1 14766 685 GCA_000683195.1 1422762 1280 Staphylococcus aureus VET0798S VET0798S Firmicutes JIJR01000008.1 3 EZR83388.1 14769 686 GCA_000683215.1 1422759 1280 Staphylococcus aureus VET0765S VET0765S Firmicutes JIJU01000014.1 3 EZR85552.1 14772 687 GCA_000683235.1 1422753 1280 Staphylococcus aureus VET0612S VET0612S Firmicutes JIKA01000011.1 3 EZR86482.1 14775 688 GCA_000683255.1 1422690 1280 Staphylococcus aureus VET0489R VET0489R Firmicutes JIKD01000012.1 3 EZR91407.1 14778 689 GCA_000683275.1 1422684 1280 Staphylococcus aureus VET0473R VET0473R Firmicutes JIKJ01000007.1 3 EZR97101.1 14781 690 GCA_000683295.1 1422683 1280 Staphylococcus aureus VET0472R VET0472R Firmicutes JIKK01000013.1 3 EZR91808.1 14784 691 GCA_000683315.1 1422682 1280 Staphylococcus aureus VET0471R VET0471R Firmicutes JIKL01000010.1 3 EZS01238.1 14787 692 GCA_000683335.1 1422680 1280 Staphylococcus aureus VET0469R VET0469R Firmicutes JIKN01000014.1 3 EZR98553.1 14790 693 GCA_000683355.1 1422678 1280 Staphylococcus aureus VET0467R VET0467R Firmicutes JIKP01000012.1 3 EZS03613.1 14793 694 GCA_000683375.1 1422659 1280 Staphylococcus aureus VET0437R VET0437R Firmicutes JILI01000022.1 3 EZS03317.1 14796 695 GCA_000683395.1 1422658 1280 Staphylococcus aureus VET0436R VET0436R Firmicutes JILJ01000008.1 3 EZS19480.1 14799 696 GCA_000683415.1 1422650 1280 Staphylococcus aureus VET0426R VET0426R Firmicutes JILR01000018.1 3 EZS08904.1 14802 697 GCA_000683435.1 1422648 1280 Staphylococcus aureus VET0424R VET0424R Firmicutes JILT01000015.1 3 EZS11744.1 14805 698 GCA_000683455.1 1422646 1280 Staphylococcus aureus VET0422R VET0422R Firmicutes JILV01000006.1 3 EZS15735.1 14808 699 GCA_000683475.1 1422641 1280 Staphylococcus aureus VET0414R VET0414R Firmicutes JIMA01000009.1 3 EZS17716.1 14811 700 GCA_000683495.1 1422631 1280 Staphylococcus aureus VET0400R VET0400R Firmicutes JIMK01000012.1 3 EZS22505.1 14814 701 GCA_000683515.1 1422615 1280 Staphylococcus aureus VET0368R VET0368R Firmicutes JINA01000007.1 3 EZS28196.1 14817 702 GCA_000683535.1 1422610 1280 Staphylococcus aureus VET0361R VET0361R Firmicutes JINE01000013.1 3 EZS23872.1 14820 703 GCA_000683555.1 1422607 1280 Staphylococcus aureus VET0358R VET0358R Firmicutes JINH01000013.1 3 EZS29422.1 14823 704 GCA_000683575.1 1422604 1280 Staphylococcus aureus VET0353R VET0353R Firmicutes JINK01000012.1 3 EZS31414.1 14826 705 GCA_000683595.1 1422602 1280 Staphylococcus aureus VET0343R VET0343R Firmicutes JINM01000020.1 3 EZS33213.1 14829 706 GCA_000683615.1 1422601 1280 Staphylococcus aureus VET0342R VET0342R Firmicutes JINN01000024.1 3 EZS35185.1 14832 707 GCA_000683635.1 1422592 1280 Staphylococcus aureus VET0332R VET0332R Firmicutes JINW01000011.1 3 EZS39162.1 14835 708 GCA_000683655.1 1422584 1280 Staphylococcus aureus VET0319R VET0319R Firmicutes JIOE01000008.1 3 EZS43277.1 14838 709 GCA_000683675.1 1422573 1280 Staphylococcus aureus VET0306R VET0306R Firmicutes JIOP01000015.1 3 EZS45538.1 14841 710 GCA_000683695.1 1422568 1280 Staphylococcus aureus VET0301R VET0301R Firmicutes JIOU01000001.1 3 EZS50847.1 14844 711 GCA_000683715.1 1422565 1280 Staphylococcus aureus VET0298R VET0298R Firmicutes JIOX01000011.1 3 EZS49647.1 14847 712 GCA_000683735.1 1422560 1280 Staphylococcus aureus VET0293R VET0293R Firmicutes JIPC01000010.1 3 EZS53448.1 14850 713 GCA_000683755.1 1422532 1280 Staphylococcus aureus VET0251R VET0251R Firmicutes JIQE01000003.1 3 EZS57832.1 14853 714 GCA_000683775.1 1422529 1280 Staphylococcus aureus VET0244R VET0244R Firmicutes JIQH01000007.1 3 EZS59105.1 14856 715 GCA_000683795.1 1422524 1280 Staphylococcus aureus VET0235R VET0235R Firmicutes JIQM01000010.1 3 EZS59928.1 14859 716 GCA_000683815.1 1422523 1280 Staphylococcus aureus VET0232R VET0232R Firmicutes JIQN01000013.1 3 EZS62658.1 14862 717 GCA_000683835.1 1422521 1280 Staphylococcus aureus VET0229R VET0229R Firmicutes JIQP01000009.1 3 EZS64792.1 14865 718 GCA_000683855.1 1422515 1280 Staphylococcus aureus VET0219R VET0219R Firmicutes JIQV01000013.1 3 EZS69843.1 14868 719 GCA_000683875.1 1422503 1280 Staphylococcus aureus VET0203R VET0203R Firmicutes JIRD01000012.1 3 EZS69138.1 14871 720 GCA_000683895.1 1422497 1280 Staphylococcus aureus VET0197R VET0197R Firmicutes JIRG01000010.1 3 EZS72362.1 14874 721 GCA_000683915.1 1422491 1280 Staphylococcus aureus VET0191R VET0191R Firmicutes JIRL01000031.1 3 EZS75507.1 14877 722 GCA_000683935.1 1422485 1280 Staphylococcus aureus VET0184R VET0184R Firmicutes JIRP01000014.1 3 EZS76928.1 14880 723 GCA_000683955.1 1422484 1280 Staphylococcus aureus VET0183R VET0183R Firmicutes JIRQ01000012.1 3 EZS80907.1 14883 724 GCA_000683975.1 1422471 1280 Staphylococcus aureus VET0159R VET0159R Firmicutes JISD01000013.1 3 EZS87845.1 14886 725 GCA_000683995.1 1422470 1280 Staphylococcus aureus VET0158R VET0158R Firmicutes JISE01000012.1 3 EZS84438.1 14889 726 GCA_000684015.1 1422469 1280 Staphylococcus aureus VET0157R VET0157R Firmicutes JISF01000014.1 3 EZS87769.1 14892 727 GCA_000684035.1 1422466 1280 Staphylococcus aureus VET0154R VET0154R Firmicutes JISI01000011.1 3 EZS90163.1 14895 728 GCA_000684055.1 1422463 1280 Staphylococcus aureus VET0150R VET0150R Firmicutes JISL01000013.1 3 EZS94702.1 14898 729 GCA_000684075.1 1422461 1280 Staphylococcus aureus VET0141R VET0141R Firmicutes JISN01000008.1 3 EZS98281.1 14901 730 GCA_000684095.1 1422459 1280 Staphylococcus aureus VET0136R VET0136R Firmicutes JISP01000015.1 3 EZT00071.1 14904 731 GCA_000684115.1 1422450 1280 Staphylococcus aureus VET0125R VET0125R Firmicutes JISY01000005.1 3 EZT04301.1 14907 732 GCA_000684135.1 1422447 1280 Staphylococcus aureus VET0120R VET0120R Firmicutes JITB01000012.1 3 EZT04247.1 14910 733 GCA_000684155.1 1422441 1280 Staphylococcus aureus VET0113R VET0113R Firmicutes JITH01000016.1 3 EZT06690.1 14913 734 GCA_000684175.1 1422439 1280 Staphylococcus aureus VET0111R VET0111R Firmicutes JITJ01000011.1 3 EZT09552.1 14916 735 GCA_000684195.1 1422433 1280 Staphylococcus aureus VET0102R VET0102R Firmicutes JITP01000023.1 3 EZT09961.1 14919 736 GCA_000684215.1 1422415 1280 Staphylococcus aureus VET0081R VET0081R Firmicutes JIUH01000008.1 3 EZT16280.1 14922 737 GCA_000684235.1 1422413 1280 Staphylococcus aureus VET0078R VET0078R Firmicutes JIUJ01000012.1 3 EZT18988.1 14925 738 GCA_000684255.1 1422397 1280 Staphylococcus aureus VET0058R VET0058R Firmicutes JIUZ01000012.1 3 EZT18347.1 14928 739 GCA_000684275.1 1422390 1280 Staphylococcus aureus VET0050R VET0050R Firmicutes JIVG01000012.1 3 EZT23523.1 14931 740 GCA_000684295.1 1413450 1280 Staphylococcus aureus VE08/02242ST1 VE08/02242ST1 Firmicutes JIVI01000014.1 3 EZT25332.1 14934 741 GCA_000684315.1 1413603 1280 Staphylococcus aureus USA_6 USA_6 Firmicutes JIV001000013.1 3 EZT27375.1 14937 742 GCA_000684335.1 1413566 1280 Staphylococcus aureus Tur-5 Tur-5 Firmicutes JIVW01000016.1 3 EZT32068.1 14940 743 GCA_000684355.1 1413553 1280 Staphylococcus aureus Tur-4 Tur-4 Firmicutes JIVX01000016.1 3 EZT32807.1 14943 744 GCA_000684375.1 1413487 1280 Staphylococcus aureus S64_POEL S64_POEL Firmicutes JIWP01000013.1 3 EZT35387.1 14946 745 GCA_000684395.1 1413486 1280 Staphylococcus aureus S63_POEL S63_POEL Firmicutes JIWQ01000014.1 3 EZT42046.1 14949 746 GCA_000684415.1 1413565 1280 Staphylococcus aureus Rd.290 Rd.290 Firmicutes JIXA01000010.1 3 EZT39172.1 14952 747 GCA_000684435.1 1413494 1280 Staphylococcus aureus MSSA-47 MSSA-47 Firmicutes JIX001000015.1 3 EZT44508.1 14955 748 GCA_000684455.1 1413493 1280 Staphylococcus aureus MSSA-37 MSSA-37 Firmicutes JIXP01000012.1 3 EZT47451.1 14958 749 GCA_000684475.1 1413496 1280 Staphylococcus aureus MSSA-123 MSSA-123 Firmicutes JIXQ01000009.1 3 EZT50536.1 14961 750 GCA_000684495.1 1413536 1280 Staphylococcus aureus GD2010-169 GD2010-169 Firmicutes JIXZ01000015.1 3 EZT52625.1 14964 751 GCA_000684515.1 1413535 1280 Staphylococcus aureus GD2010-159 GD2010-159 Firmicutes JIYB01000010.1 3 EZT54280.1 14967 752 GCA_000684535.1 1413473 1280 Staphylococcus aureus C3452 C3452 Firmicutes JIZF01000012.1 3 EZT57811.1 14970 753 GCA_000684555.1 1413511 1280 Staphylococcus aureus C0676 C0676 Firmicutes JIZR01000010.1 3 EZT60957.1 14973 754 GCA_000684575.1 1413507 1280 Staphylococcus aureus C0626 C0626 Firmicutes JIZV01000007.1 3 EZT61426.1 14976 755 GCA_000684595.1 1413325 1280 Staphylococcus aureus 81629 81629 Firmicutes JJAH01000015.1 3 EZT65757.1 14979 756 GCA_000684615.1 1413343 1280 Staphylococcus aureus 63-D10 63-D10 Firmicutes JJAN01000014.1 3 EZT68345.1 14982 757 GCA_000684635.1 1413388 1280 Staphylococcus aureus 53180-1 53180-1 Firmicutes JJAW01000011.1 3 EZT68418.1 14985 758 GCA_000684655.1 1413547 1280 Staphylococcus aureus 45(2607) 45(2607) Firmicutes JJAZ01000013.1 3 EZT73755.1 14988 759 GCA_000684675.1 1413544 1280 Staphylococcus aureus 28(3K2-5) 28(3K2-5) Firmicutes JJBI01000015.1 3 EZT75322.1 14991 760 GCA_000684695.1 1413543 1280 Staphylococcus aureus 22(2K81-5) 22(2K81-5) Firmicutes JJBX01000016.1 3 EZT77630.1 14994 761 GCA_000684715.1 1413522 1280 Staphylococcus aureus 2011-60-2275-7 2011-60-2275-7 Firmicutes JJBY01000031.1 3 EZT80087.1 14997 762 GCA_000684735.1 1413394 1280 Staphylococcus aureus 1484-9 1484-9 Firmicutes JJCS01000014.1 3 EZT82073.1 15000 763 GCA_000684795.1 1413430 1280 Staphylococcus aureus 1111001578 1111001578 Firmicutes JJDU01000014.1 3 EZT89290.1 15003 764 GCA_000684815.1 1413357 1280 Staphylococcus aureus 10S00488 10S00488 Firmicutes JJEI01000012.1 3 EZT93146.1 15006 765 GCA_000684835.1 1413560 1280 Staphylococcus aureus 1(04GN_04-02-52-07) 1(04GN_04-02-52-07) Firmicutes JJEJ01000010.1 3 EZT96081.1 15009 766 GCA_000684855.1 1413356 1280 Staphylococcus aureus 09S01694 09S01694 Firmicutes JJEK01000015.1 3 EZT99582.1 15012 767 GCA_000684875.1 1413349 1280 Staphylococcus aureus 09-00736 09-00736 Firmicutes JJEM01000015.1 3 EZU00841.1 15015 768 GCA_000684895.1 1413346 1280 Staphylococcus aureus 08-01229 08-01229 Firmicutes JJET01000013.1 3 EZU03294.1 15018 769 GCA_000684915.1 1413345 1280 Staphylococcus aureus 08-01062 08-01062 Firmicutes JJEW01000012.1 3 EZU07140.1 15021 770 GCA_000684955.1 1413344 1280 Staphylococcus aureus 08-01059 08-01059 Firmicutes JJEX01000015.1 3 EZU08872.1 15024 771 GCA_000627945.1 1444105 562 Escherichia coli 1-176-05_S1_C3 1-176-05_S1_C3 Proteobacteria JJLY01000082.1 2 EZK05852.1 15027 772 GCA_000627905.1 1444078 562 Escherichia coli 1-176-05_S1_C2 1-176-05_S1_C2 Proteobacteria JJMA01000042.1 2 EZK20524.1 15029 773 GCA_000705535.1 95486 95486 Burkholderia cenocepacia 869T2 Proteobacteria JJOA01000083.1 3 KEA54804.1 15031 774 GCA_000764325.1 29495 29495 Vibrio navarrensis ATCC 51183 Proteobacteria JMCG01000001.1 2 KGK10824.1 15034 775 GCA_000695795.1 1492738 1492738 Flavobacterium seoulense EM1321 Bacteroidetes JNCA01000003.1 3 KDN56466.1 15036 776 GCA_000699865.1 1339352 821 Bacteroides vulgatus str. 3975 RP4 3975 RP4 Bacteroidetes JNHM01000174.1 3 KDS43697.1 15039 777 GCA_000700705.1 1444060 562 Escherichia coli 4-203-08_S1_C1 4-203-08_S1_C1 Proteobacteria JNMY01000013.1 2 KDU61955.1 15042 778 GCA_000704125.1 1444070 562 Escherichia coli 2-222-05_S1_C2 2-222-05_S1_C2 Proteobacteria JNQL01000002.1 2 KDX77544.1 15044 779 GCA_000704285.1 1444098 562 Escherichia coli 2-222-05_S1_C3 2-222-05_S1_C3 Proteobacteria JNQM01000001.1 2 KDX82612.1 15046 780 GCA_000704405.1 1444183 562 Escherichia coli 2-427-07_S3_C3 2-427-07_S3_C3 Proteobacteria JNQY01000031.1 2 KDY27416.1 15048 781 GCA_000707425.1 670 670 Vibrio parahaemolyticus CFSAN007430 Proteobacteria JNSN01000106.1 2 KED12527.1 15050 782 GCA_000707385.1 670 670 Vibrio parahaemolyticus CFSAN007431 Proteobacteria JNSO01000031.1 2 KED15841.1 15052 783 GCA_000707465.1 670 670 Vibrio parahaemolyticus CFSAN007433 Proteobacteria JNSQ01000049.1 3 KED29323.1 15054 784 GCA_000707485.1 670 670 Vibrio parahaemolyticus CFSAN007434 Proteobacteria JNSR01000049.1 3 KED25553.1 15057 785 GCA_000707505.1 670 670 Vibrio parahaemolyticus CFSAN007435 Proteobacteria JNSS01000023.1 3 KED36896.1 15060 786 GCA_000706885.1 670 670 Vibrio parahaemolyticus CFSAN007436 Proteobacteria JNST01000065.1 2 KED34398.1 15063 787 GCA_000707685.1 670 670 Vibrio parahaemolyticus CFSAN007446 Proteobacteria JNTD01000023.1 2 KED69849.1 15065 788 GCA_000764405.1 70775 70775 Pseudomonas plecoglossicida TND35 Proteobacteria JOJY01000001.1 3 KGK23635.1 15067 789 GCA_000713945.1 1444088 562 Escherichia coli 4-203-08_S1_C2 4-203-08_S1_C2 Proteobacteria JOQF01000029.1 2 KEK91460.1 15070 790 GCA_000713975.1 1444113 562 Escherichia coli 4-203-08_S1_C3 4-203-08_S1_C3 Proteobacteria JOQG01000030.1 2 KEK94906.1 15072 791 GCA_000713975.1 1444113 562 Escherichia coli 4-203-08_S1_C3 4-203-08_S1_C3 Proteobacteria JOQG01000030.1 2 KEK94966.1 15074 792 GCA_000713975.1 1444113 562 Escherichia coli 4-203-08_S1_C3 4-203-08_S1_C3 Proteobacteria JOQG01000115.1 2 KEK89446.1 15076 793 GCA_000722685.1 28037 28037 Streptococcus mitis SK667 Firmicutes JPFV01000011.1 3 KEQ37439.1 15078 794 GCA_000722755.1 28037 28037 Streptococcus mitis SK578 Firmicutes JPFY01000013.1 3 KEQ45048.1 15081 795 GCA_000734475.1 615 615 Serratia marcescens YDC563 Proteobacteria JPOB01000015.1 2 KFB55438.1 15084 796 GCA_000738535.1 615 615 Serratia marcescens MCB Proteobacteria JPQY01000010.1 2 KFF79466.1 15086 797 GCA_000738105.1 180957 554 Pectobacterium carotovorum subsp. brasiliense CFIA1009 Proteobacteria JPSN01000039.1 5 KFF62084.1 15088 798 GCA_001466295.1 1639 1639 Listeria monocytogenes G4599 Firmicutes JPTX01000012.1 2 KTA63996.1 15093 799 GCA_001190115.1 1089447 714 Aggregatibacter actinomycetemcomitans RHAA1 Proteobacteria JPZI01000001.1 2 KNE78570.1 15095 RhAA1 800 GCA_000743165.1 672 672 Vibrio vulnificus 2322 Proteobacteria JQDS01000004.1 3 KFK51887.1 15097 801 GCA_000754695.1 180957 554 Pectobacterium carotovorum subsp. brasiliense LMG 21371 Proteobacteria JQOE01000001.1 2 KGA25874.1 15100 802 GCA_000768895.1 1515614 1515614 Porphyromonas sp. COT-108 OH2963 COT-108 OH2963 Bacteroidetes JRAP01000021.1 2 KGN93833.1 15102 803 GCA_000764975.1 1352 1352 Enterococcus faecium UC7266 Firmicutes JRJW01000071.1 3 KGK75437.1 15104 804 GCA_000759165.1 1401072 28125 Prevotella bivia DNF00650 DNF00650 Bacteroidetes JRNM01000003.1 3 KGF38953.1 15107 805 GCA_000785785.1 1349 1349 Streptococcus uberis CAIM 1894 Firmicutes JRQN01000035.1 2 KHD43839.1 15110 806 GCA_000772505.1 1352 1352 Enterococcus faecium VRE3 Firmicutes JSET01000005.1 3 KGQ80278.1 15112 807 GCA_000817445.1 715 715 Actinobacillus pleuropneumoniae 1022 Proteobacteria JSVF01000019.1 3 KIE90685.1 15115 808 GCA_000817465.1 715 715 Actinobacillus pleuropneumoniae 460 Proteobacteria JSVG01000021.1 3 KIE90602.1 15118 809 GCA_000817515.1 715 715 Actinobacillus pleuropneumoniae 780 Proteobacteria JSVV01000021.1 3 KIE97285.1 15121 810 GCA_000817535.1 715 715 Actinobacillus pleuropneumoniae 597 Proteobacteria JSVX01000022.1 3 KIE97672.1 15124 811 GCA_000817525.1 715 715 Actinobacillus pleuropneumoniae 5651 Proteobacteria JSVY01000018.1 3 KIE96199.1 15127 812 GCA_000817485.1 715 715 Actinobacillus pleuropneumoniae 518 Proteobacteria JSVZ01000017.1 3 KIE90357.1 15130 813 GCA_000803215.1 554 554 Pectobacterium carotovorum M022 Proteobacteria JSXC01000002.1 5 KHN56276.1 15133 814 GCA_000827155.1 1280 1280 Staphylococcus aureus K12PJN53 Firmicutes JSYA01000018.1 3 KII20612.1 15138 815 GCA_000817375.1 562 562 Escherichia coli SCB11 Proteobacteria JSYT01000001.1 2 KIE70777.1 15141 816 GCA_000783635.1 644 644 Aeromonas hydrophila FDAARGOS_78 Proteobacteria JTBD01000005.1 2 KGY52609.1 15143 817 GCA_000783915.1 615 615 Serratia marcescens FDAARGOS_65 Proteobacteria JTBR01000001.1 2 KGZ13596.1 15145 818 GCA_000803085.1 1315273 137779 Pseudoalteromonas flavipulchra NCIMB ATCC BAA-314 Proteobacteria JTDZ01000035.1 2 KHM45375.1 15147 2033 = ATCC BAA-314 819 GCA_000814675.1 77608 77608 Pseudoalteromonas distincta ATCC 700518 Proteobacteria JWIG01000011.1 2 KID39107.1 15149 820 GCA_000805875.1 615 615 Serratia marcescens RM66262 Proteobacteria JWL001000004.1 2 KHO41399.1 15151 821 GCA_000830335.1 40479 2095 Mycoplasma capricolum subsp. capricolum GM508D Tenericutes JXQB01000001.1 2 KIM13727.1 15153 822 GCA_001042915.1 47884 47884 Pseudomonas taetrolens DSM 21104 Proteobacteria JYLA01000003.1 2 KMM85341.1 15155 823 GCA_000321685.1 1138891 1352 Enterococcus faecium EnGen0011 E1185 Firmicutes KB029511.1 3 ELA78317.1 15157 824 GCA_000322365.1 1138931 1352 Enterococcus faecium EnGen0051 E1644 Firmicutes KB030041.1 3 ELB72564.1 15160 825 GCA_000322385.1 1138932 1352 Enterococcus faecium EnGen0050 E2369 Firmicutes KB030078.1 3 ELB70911.1 15163 826 GCA_000322405.1 1138933 1352 Enterococcus faecium EnGen0046 E2560 Firmicutes KB030094.1 3 ELB76087.1 15166 827 GCA_000322465.1 1138936 1352 Enterococcus faecium EnGen0049 E6045 Firmicutes KB030126.1 3 ELB84571.1 15169 828 GCA_000322445.1 1138935 1352 Enterococcus faecium EnGen0045 E6012 Firmicutes KB030159.1 3 ELB85483.1 15172 829 GCA_000314675.2 883078 56946 Afipia broomeae ATCC 49717 ATCC 49717 Proteobacteria KB375284.1 2 EKS34044.1 15175 830 GCA_000350765.1 1169335 562 Escherichia coli KTE16 KTE16 Proteobacteria KB732288.1 2 ELC28356.1 15177 831 GCA_000351265.1 1181770 562 Escherichia coli KTE224 KTE224 Proteobacteria KB732567.1 2 ELD53295.1 15179 832 GCA_000352025.1 1182736 562 Escherichia coli KTE169 KTE169 Proteobacteria KB732976.1 2 ELF38886.1 15181 833 GCA_000352185.1 1169359 562 Escherichia coli KTE42 KTE42 Proteobacteria KB733011.1 2 ELF73880.1 15183 834 GCA_000352805.1 1181740 562 Escherichia coli KTE194 KTE194 Proteobacteria KB733150.1 2 ELH15113.1 15185 835 GCA_000352225.1 1169360 562 Escherichia coli KTE43 KTE43 Proteobacteria KB733426.1 2 ELF82585.1 15187 836 GCA_000368165.1 1217669 28090 Acinetobacter Iwoffii NIPH 715 NIPH 715 Proteobacteria KB849267.1 3 ENU62565.1 15189 837 GCA_000369545.1 1217702 1217702 Acinetobacter sp. NIPH 1867 NIPH 1867 Proteobacteria KB850085.1 3 ENX56755.1 15192 838 GCA_000369685.1 1144665 1144665 Acinetobacter sp. CIP 102136 CIP 102136 Proteobacteria KB850142.1 2 ENX19931.1 15195 839 GCA_000369725.1 1144662 1144662 Acinetobacter sp. CIP 101966 CIP 101966 Proteobacteria KB850160.1 3 ENX27881.1 15197 840 GCA_000371465.1 999411 179628 Clostridium colicanis 209318 209318 Firmicutes KB850956.1 3 ENZ03437.1 15200 841 GCA_000371465.1 999411 179628 Clostridium colicanis 209318 209318 Firmicutes KB850956.1 3 ENZ02555.1 15203 842 GCA_000393775.1 1158555 1352 Enterococcus faecium EnGen0265 UAA1484 Firmicutes KB946149.1 3 EOH58476.1 15206 843 GCA_000394575.1 1158644 1352 Enterococcus faecium EnGen0320 UAA949 Firmicutes KB946824.1 3 EOL74786.1 15209 844 GCA_000394595.1 1158645 1352 Enterococcus faecium EnGen0322 UAA950 Firmicutes KB946830.1 3 EOI52382.1 15212 845 GCA_000395645.1 1157463 1352 Enterococcus faecium EnGen0168 UAA725 Firmicutes KB947813.1 3 EOG00796.1 15215 846 GCA_000395665.1 1157464 1352 Enterococcus faecium EnGen0169 UAA825 Firmicutes KB947831.1 3 EOG00999.1 15218 847 GCA_000395825.1 1157472 1352 Enterococcus faecium EnGen0177 VRE 108 Firmicutes KB948035.1 3 EOG17544.1 15221 848 GCA_000395865.1 1157474 1352 Enterococcus faecium EnGen0179 VRE 13 Firmicutes KB948120.1 3 EOG17727.1 15224 849 GCA_000395885.1 1157475 1352 Enterococcus faecium EnGen0180 VRE 84 Firmicutes KB948121.1 3 EOG29141.1 15227 850 GCA_000396925.1 1158543 1352 Enterococcus faecium EnGen0255 UAA951 Firmicutes KB949696.1 3 EOM31821.1 15230 851 GCA_000399545.1 1053235 1396 Bacillus cereus VD140 VD140 Firmicutes KB976803.1 2 EOQ01914.1 15233 852 GCA_000406925.1 1121865 1355 Enterococcus columbae DSM 7374 = ATCC 51263 Firmicutes KE136347.1 2 EOT43559.1 15235 ATCC 51263 853 GCA_000407225.1 1121865 1355 Enterococcus columbae DSM 7374 = ATCC 51263 Firmicutes KE136492.1 2 EOW87387.1 15237 ATCC 51263 854 GCA_000411115.1 641143 45242 Capnocytophaga granulosa ATCC 51502 ATCC 51502 Bacteroidetes KE150244.1 4 EPD26424.1 15239 855 GCA_000415365.1 1244150 1352 Enterococcus faecium LA4B-2 LA4B-2 Firmicutes KE352415.1 2 EPI22405.1 15243 856 GCA_000456145.1 1280963 562 Escherichia coli HVH 9 (4-6942539) HVH 9 (4-6942539) Proteobacteria KE698882.1 2 EQN31627.1 15245 857 GCA_000456585.1 1280988 562 Escherichia coli HVH 38 (4-2774682) HVH 38 (4-2774682) Proteobacteria KE699187.1 2 EQO47878.1 15247 858 GCA_000456745.1 1280996 562 Escherichia coli HVH 46 (4-2758776) HVH 46 (4-2758776) Proteobacteria KE699286.1 2 EQO88544.1 15249 859 GCA_000458275.1 1281086 562 Escherichia coli HVH 153 (3-9344314) HVH 153 (3-9344314) Proteobacteria KE700288.1 2 EQS52095.1 15251 860 GCA_000460435.1 1281198 562 Escherichia coli UMEA 3160-1 UMEA 3160-1 Proteobacteria KE701742.1 2 EQX21241.1 15253 861 GCA_000469405.1 888055 157687 Leptotrichia wadei F0279 F0279 Fusobacteria KI271427.1 2 ERK54360.1 15255 862 GCA_000481425.1 1402514 287 Pseudomonas aeruginosa BWHPSA014 BWHPSA014 Proteobacteria KI519076.1 3 ERW54756.1 15257 863 GCA_000481625.1 1402504 287 Pseudomonas aeruginosa BWHPSA004 BWHPSA004 Proteobacteria KI519157.1 3 ERW94009.1 15260 864 GCA_000507745.1 1073373 1305 Streptococcus sanguinis CC94A CC94A Firmicutes KI669394.1 3 ETD07628.1 15263 865 GCA_000519605.1 1391479 1351 Enterococcus faecalis EnGen0409 EnGen0409 Firmicutes KI912997.1 3 ETU12932.1 15266 866 GCA_000521925.1 1400186 615 Serratia marcescens BIDMC 44 BIDMC 44 Proteobacteria KI929263.1 2 ETX46915.1 15269 867 GCA_000599425.1 1348563 28901 Salmonella enterica subsp. enterica serovar 05-2929 Proteobacteria KK082454.1 2 EXX84012.1 15271 Namur str. 05-2929 868 GCA_000633715.1 1445864 615 Serratia marcescens BIDMC 80 BIDMC 80 Proteobacteria KK214322.1 2 EZQ69339.1 15273 869 GCA_000636175.1 1413352 1280 Staphylococcus aureus 08-01084 08-01084 Firmicutes KK218077.1 3 EZU15808.1 15275 870 GCA_000636195.1 1413353 1280 Staphylococcus aureus 08-01085 08-01085 Firmicutes KK218112.1 3 EZU14925.1 15278 871 GCA_000636215.1 1413347 1280 Staphylococcus aureus 08-01728 08-01728 Firmicutes KK218139.1 3 EZU22369.1 15281 872 GCA_000636255.1 1413597 1280 Staphylococcus aureus 08134-6 08134-6 Firmicutes KK218219.1 3 EZU24877.1 15284 873 GCA_000636275.1 1413598 1280 Staphylococcus aureus 08139-6 08139-6 Firmicutes KK218244.1 3 EZU30074.1 15287 874 GCA_000636295.1 1413599 1280 Staphylococcus aureus 08142-8 08142-8 Firmicutes KK218289.1 3 EZU33076.1 15290 875 GCA_000636315.1 1413600 1280 Staphylococcus aureus 08143-5 08143-5 Firmicutes KK218349.1 3 EZU39423.1 15293 876 GCA_000636335.1 1413355 1280 Staphylococcus aureus 09S00475 09S00475 Firmicutes KK218433.1 3 EZU35477.1 15296 877 GCA_000636355.1 1413358 1280 Staphylococcus aureus 10S01493 10S01493 Firmicutes KK218470.1 3 EZU41791.1 15299 878 GCA_000636375.1 1413423 1280 Staphylococcus aureus 110802495 110802495 Firmicutes KK218519.1 3 EZU42124.1 15302 879 GCA_000636395.1 1413418 1280 Staphylococcus aureus 1110601704 1110601704 Firmicutes KK218547.1 3 EZU46569.1 15305 880 GCA_000636415.1 1413419 1280 Staphylococcus aureus 1110601896 1110601896 Firmicutes KK218599.1 3 EZU46770.1 15308 881 GCA_000636435.1 1413420 1280 Staphylococcus aureus 1110700562 1110700562 Firmicutes KK218635.1 3 EZU48615.1 15311 882 GCA_000636455.1 1413421 1280 Staphylococcus aureus 1110700610 1110700610 Firmicutes KK218658.1 3 EZU52018.1 15314 883 GCA_000636475.1 1413422 1280 Staphylococcus aureus 1110701127 1110701127 Firmicutes KK218690.1 3 EZU55227.1 15317 884 GCA_000636495.1 1413424 1280 Staphylococcus aureus 1110802883 1110802883 Firmicutes KK218732.1 3 EZU56168.1 15320 885 GCA_000636535.1 1413426 1280 Staphylococcus aureus 1110807699 1110807699 Firmicutes KK218822.1 3 EZU61337.1 15323 886 GCA_000636555.1 1413427 1280 Staphylococcus aureus 1110904178 1110904178 Firmicutes KK218847.1 3 EZU65300.1 15326 887 GCA_000636635.1 1413432 1280 Staphylococcus aureus 1111101949 1111101949 Firmicutes KK219058.1 3 EZU73662.1 15329 888 GCA_000636655.1 1413433 1280 Staphylococcus aureus 1111102620 1111102620 Firmicutes KK219075.1 3 EZU80187.1 15332 889 GCA_000636675.1 1413434 1280 Staphylococcus aureus 1111200013 1111200013 Firmicutes KK219116.1 3 EZU80949.1 15335 890 GCA_000636695.1 1413435 1280 Staphylococcus aureus 1111203374 1111203374 Firmicutes KK219160.1 3 EZU82981.1 15338 891 GCA_000636715.1 1413436 1280 Staphylococcus aureus 1111205429 1111205429 Firmicutes KK219204.1 3 EZU87062.1 15341 892 GCA_000636735.1 1413437 1280 Staphylococcus aureus 1111206270 1111206270 Firmicutes KK219261.1 3 EZU88265.1 15344 893 GCA_000636755.1 1413587 1280 Staphylococcus aureus 11P4 11P4 Firmicutes KK219305.1 3 EZU90294.1 15347 894 GCA_000636775.1 1413588 1280 Staphylococcus aureus 11P8 11P8 Firmicutes KK219338.1 3 EZU94768.1 15350 895 GCA_000636815.1 1413360 1280 Staphylococcus aureus 11S00627 11S00627 Firmicutes KK219434.1 3 EZU96101.1 15353 896 GCA_000636855.1 1413363 1280 Staphylococcus aureus 11S01586 11S01586 Firmicutes KK219518.1 3 EZV02408.1 15356 897 GCA_000636895.1 1413491 1280 Staphylococcus aureus 122 122 Firmicutes KK219580.1 3 EZV09969.1 15359 898 GCA_000636915.1 1413416 1280 Staphylococcus aureus 12464 12464 Firmicutes KK219611.1 3 EZV11275.1 15362 899 GCA_000636955.1 1413365 1280 Staphylococcus aureus 12S00579 12S00579 Firmicutes KK219698.1 3 EZV17198.1 15365 900 GCA_000636975.1 1413366 1280 Staphylococcus aureus 12S00881 12S00881 Firmicutes KK219743.1 3 EZV18375.1 15368 901 GCA_000636995.1 1413368 1280 Staphylococcus aureus 12S01153 12S01153 Firmicutes KK219769.1 3 EZV22691.1 15371 902 GCA_000637015.1 1413369 1280 Staphylococcus aureus 12S01399 12S01399 Firmicutes KK219813.1 3 EZV23635.1 15374 903 GCA_000637055.1 1413371 1280 Staphylococcus aureus 12-ST01988 12-ST01988 Firmicutes KK219900.1 3 EZV30021.1 15377 904 GCA_000637095.1 1413562 1280 Staphylococcus aureus 14(11MN_17- 14(11MN_17- Firmicutes KK219997.1 3 EZV34240.1 15380 08-66-05) 08-66-05) 905 GCA_000637115.1 1413401 1280 Staphylococcus aureus 150211/pool 1 150211/pool 1 Firmicutes KK220038.1 3 EZV37879.1 15383 906 GCA_000637135.1 1413558 1280 Staphylococcus aureus 16(11S1S4-09) 16(115154-09) Firmicutes KK220079.1 3 EZV41499.1 15386 907 GCA_000637155.1 1413402 1280 Staphylococcus aureus 18439-17 18439-17 Firmicutes KK220114.1 3 EZV40173.1 15389 908 GCA_000637175.1 1413405 1280 Staphylococcus aureus 18439-62 18439-62 Firmicutes KK220145.1 3 EZV45691.1 15392 909 GCA_000637215.1 1413333 1280 Staphylococcus aureus 19571 19571 Firmicutes KK220240.1 3 EZV49483.1 15395 910 GCA_000637235.1 1413561 1280 Staphylococcus aureus 2(04HN_17- 2(04HN_17- Firmicutes KK220279.1 3 EZV51743.1 15398 03-52-05) 03-52-05) 911 GCA_000637255.1 1413519 1280 Staphylococcus aureus 2009-60-561-1 2009-60-561-1 Firmicutes KK220312.1 3 EZV56161.1 15401 912 GCA_000637275.1 1413514 1280 Staphylococcus aureus 2010-60-1240-1 2010-60-1240-1 Firmicutes KK220355.1 3 EZV60061.1 15404 913 GCA_000637295.1 1413328 1280 Staphylococcus aureus 2010-60-6063-29 2010-60-6063-29 Firmicutes KK220412.1 3 EZV56179.1 15407 914 GCA_000637315.1 1413516 1280 Staphylococcus aureus 2010-60-6063-39 2010-60-6063-39 Firmicutes KK220436.1 3 EZV62995.1 15410 915 GCA_000637355.1 1413517 1280 Staphylococcus aureus 2010-60-6511-39 2010-60-6511-39 Firmicutes KK220514.1 3 EZV68414.1 15413 916 GCA_000637395.1 1413329 1280 Staphylococcus aureus 2010-60-7626-19 2010-60-7626-19 Firmicutes KK220613.1 3 EZV73439.1 15416 917 GCA_000637415.1 1413524 1280 Staphylococcus aureus 2011-60-1490-31 2011-60-1490-31 Firmicutes KK220641.1 3 EZV79302.1 15419 918 GCA_000637435.1 1413523 1280 Staphylococcus aureus 2011-60-2078-5 2011-60-2078-5 Firmicutes KK220717.1 3 EZV78174.1 15422 919 GCA_000637455.1 1413330 1280 Staphylococcus aureus 2011-60-2256-5 2011-60-2256-5 Firmicutes KK220763.1 3 EZV80246.1 15425 920 GCA_000637475.1 1413521 1280 Staphylococcus aureus 2011-60-2275-1 2011-60-2275-1 Firmicutes KK220803.1 3 EZV86033.1 15428 921 GCA_000637495.1 1413334 1280 Staphylococcus aureus 22825 22825 Firmicutes KK220854.1 3 EZV85085.1 15431 922 GCA_000637515.1 1413336 1280 Staphylococcus aureus 22835 22835 Firmicutes KK220886.1 3 EZV88945.1 15434 923 GCA_000637535.1 1413337 1280 Staphylococcus aureus 22837 22837 Firmicutes KK220922.1 3 EZV92667.1 15437 924 GCA_000637555.1 1413338 1280 Staphylococcus aureus 22838 22838 Firmicutes KK220954.1 3 EZV94448.1 15440 925 GCA_000637575.1 1413339 1280 Staphylococcus aureus 22841 22841 Firmicutes KK220987.1 3 EZV97126.1 15443 926 GCA_000637595.1 1413340 1280 Staphylococcus aureus 22843 22843 Firmicutes KK221024.1 3 EZV98957.1 15446 927 GCA_000637615.1 1413341 1280 Staphylococcus aureus 22846 22846 Firmicutes KK221058.1 3 EZW01628.1 15449 928 GCA_000637635.1 1413438 1280 Staphylococcus aureus 22P79 22P79 Firmicutes KK221090.1 3 EZW04546.1 15452 929 GCA_000637655.1 1413342 1280 Staphylococcus aureus 23237 23237 Firmicutes KK221128.1 3 EZW06685.1 15455 930 GCA_000637675.1 1413414 1280 Staphylococcus aureus 2393-15 2393-15 Firmicutes KK221165.1 3 EZW08828.1 15458 931 GCA_000637695.1 1413415 1280 Staphylococcus aureus 2393-19 2393-19 Firmicutes KK221201.1 3 EZW10960.1 15461 932 GCA_000637715.1 1413545 1280 Staphylococcus aureus 25(2889) 25(2889) Firmicutes KK221232.1 3 EZW14699.1 15464 933 GCA_000637735.1 1413406 1280 Staphylococcus aureus 27999-3 27999-3 Firmicutes KK221262.1 3 EZW17376.1 15467 934 GCA_000637775.1 1413589 1280 Staphylococcus aureus 36P1 36P1 Firmicutes KK221358.1 3 EZW21157.1 15470 935 GCA_000637795.1 1413590 1280 Staphylococcus aureus 36P5 36P5 Firmicutes KK221386.1 3 EZW24847.1 15473 936 GCA_000637815.1 1413559 1280 Staphylococcus aureus 37(18S2S5-05) 37(18S2S5-05) Firmicutes KK221416.1 3 EZW30609.1 15476 937 GCA_000637835.1 1413592 1280 Staphylococcus aureus 40P10 40P10 Firmicutes KK221466.1 3 EZW29484.1 15479 938 GCA_000637855.1 1413591 1280 Staphylococcus aureus 40P5 1_1 40P5 1_1 Firmicutes KK221506.1 3 EZW34093.1 15482 939 GCA_000637875.1 1413593 1280 Staphylococcus aureus 43P3 43P3 Firmicutes KK221549.1 3 EZW34360.1 15485 940 GCA_000637895.1 1413594 1280 Staphylococcus aureus 43P8 43P8 Firmicutes KK221571.1 3 EZW38692.1 15488 941 GCA_000637915.1 1413546 1280 Staphylococcus aureus 44(2608) 44(2608) Firmicutes KK221597.1 3 EZW42269.1 15491 942 GCA_000637935.1 1413595 1280 Staphylococcus aureus 47P5 47P5 Firmicutes KK221644.1 3 EZW41573.1 15494 943 GCA_000637955.1 1413596 1280 Staphylococcus aureus 47P9 47P9 Firmicutes KK221684.1 3 EZW45924.1 15497 944 GCA_000637975.1 1413384 1280 Staphylococcus aureus 5670-1 5670-1 Firmicutes KK221721.1 3 EZW48566.1 15500 945 GCA_000637995.1 1413410 1280 Staphylococcus aureus 56824-10 56824-10 Firmicutes KK221759.1 3 EZW51956.1 15503 946 GCA_000638015.1 1413411 1280 Staphylococcus aureus 56824-15 56824-15 Firmicutes KK221811.1 3 EZW52897.1 15506 947 GCA_000638035.1 1413407 1280 Staphylococcus aureus 56824-2 56824-2 Firmicutes KK221853.1 3 EZW54604.1 15509 948 GCA_000638055.1 1413412 1280 Staphylococcus aureus 56824-21 56824-21 Firmicutes KK221878.1 3 EZW61228.1 15512 949 GCA_000638075.1 1413408 1280 Staphylococcus aureus 56824-5 56824-5 Firmicutes KK221926.1 3 EZW59349.1 15515 950 GCA_000638095.1 1413409 1280 Staphylococcus aureus 56824-7 56824-7 Firmicutes KK221958.1 3 EZW64575.1 15518 951 GCA_000638135.1 1413385 1280 Staphylococcus aureus 6665-5 6665-5 Firmicutes KK222053.1 3 EZW67819.1 15521 952 GCA_000638155.1 1413395 1280 Staphylococcus aureus 75495-3 75495-3 Firmicutes KK222088.1 3 EZW72066.1 15524 953 GCA_000638175.1 1413396 1280 Staphylococcus aureus 76669-6 76669-6 Firmicutes KK222133.1 3 EZW73745.1 15527 954 GCA_000638215.1 1413324 1280 Staphylococcus aureus 81070 81070 Firmicutes KK222240.1 3 EZW78367.1 15530 955 GCA_000638235.1 1413397 1280 Staphylococcus aureus 84069-2 84069-2 Firmicutes KK222292.1 3 EZW78068.1 15533 956 GCA_000638255.1 1413398 1280 Staphylococcus aureus 86770-7 86770-7 Firmicutes KK222314.1 3 EZW85425.1 15536 957 GCA_000638275.1 1413389 1280 Staphylococcus aureus 87807-1 87807-1 Firmicutes KK222349.1 3 EZW86269.1 15539 958 GCA_000638295.1 1413390 1280 Staphylococcus aureus 87807-11 87807-11 Firmicutes KK222381.1 3 EZW90701.1 15542 959 GCA_000638315.1 1413392 1280 Staphylococcus aureus 87807-12 87807-12 Firmicutes KK222425.1 3 EZW93348.1 15545 960 GCA_000638335.1 1413393 1280 Staphylococcus aureus 87807-16 87807-16 Firmicutes KK222467.1 3 EZW94212.1 15548 961 GCA_000638355.1 1413391 1280 Staphylococcus aureus 87807-9 87807-9 Firmicutes KK222503.1 3 EZW97015.1 15551 962 GCA_000638375.1 1413399 1280 Staphylococcus aureus 88088-1 88088-1 Firmicutes KK222532.1 3 EZX00539.1 15554 963 GCA_000638395.1 1413400 1280 Staphylococcus aureus 88088-2 88088-2 Firmicutes KK222577.1 3 EZX02277.1 15557 964 GCA_000638415.1 1413586 1280 Staphylococcus aureus 9P9 9P9 Firmicutes KK222619.1 3 EZX04400.1 15560 965 GCA_000638435.1 1413383 1280 Staphylococcus aureus BG407 BG407 Firmicutes KK222651.1 3 EZX08872.1 15563 966 GCA_000638475.1 1413509 1280 Staphylococcus aureus C0637 C0637 Firmicutes KK222726.1 3 EZX10608.1 15566 967 GCA_000638515.1 1413466 1280 Staphylococcus aureus C1655 C1655 Firmicutes KK222789.1 3 EZX16970.1 15569 968 GCA_000638535.1 1413470 1280 Staphylococcus aureus C1673 C1673 Firmicutes KK222826.1 3 EZX19510.1 15572 969 GCA_000638555.1 1413461 1280 Staphylococcus aureus C1842 C1842 Firmicutes KK222863.1 3 EZX23730.1 15575 970 GCA_000638575.1 1413458 1280 Staphylococcus aureus C1891 C1891 Firmicutes KK222914.1 3 EZX26911.1 15578 971 GCA_000638595.1 1413459 1280 Staphylococcus aureus C1894 C1894 Firmicutes KK222954.1 3 EZX30320.1 15581 972 GCA_000638615.1 1413481 1280 Staphylococcus aureus C2549 C2549 Firmicutes KK222984.1 3 EZX30781.1 15584 973 GCA_000638635.1 1413482 1280 Staphylococcus aureus C2679 C2679 Firmicutes KK223018.1 3 EZX33812.1 15587 974 GCA_000638655.1 1413467 1280 Staphylococcus aureus C2706 C2706 Firmicutes KK223042.1 3 EZX38408.1 15590 975 GCA_000638675.1 1413474 1280 Staphylococcus aureus C2928 C2928 Firmicutes KK223082.1 3 EZX39864.1 15593 976 GCA_000638695.1 1413472 1280 Staphylococcus aureus C2930 C2930 Firmicutes KK223136.1 3 EZX38524.1 15596 977 GCA_000638715.1 1413475 1280 Staphylococcus aureus C2942 C2942 Firmicutes KK223163.1 3 EZX45515.1 15599 978 GCA_000638735.1 1413454 1280 Staphylococcus aureus C3489 C3489 Firmicutes KK223216.1 3 EZX46731.1 15602 979 GCA_000638755.1 1413476 1280 Staphylococcus aureus C3672 C3672 Firmicutes KK223267.1 3 EZX48305.1 15605 980 GCA_000638775.1 1413456 1280 Staphylococcus aureus C3865 C3865 Firmicutes KK223311.1 3 EZX53235.1 15608 981 GCA_000638795.1 1413483 1280 Staphylococcus aureus C3965 C3965 Firmicutes KK223341.1 3 EZX53550.1 15611 982 GCA_000638815.1 1413477 1280 Staphylococcus aureus C4151 C4151 Firmicutes KK223372.1 3 EZX56516.1 15614 983 GCA_000638835.1 1413471 1280 Staphylococcus aureus C4155 C4155 Firmicutes KK223399.1 3 EZX60548.1 15617 984 GCA_000638855.1 1413457 1280 Staphylococcus aureus C4668 C4668 Firmicutes KK223430.1 3 EZX62512.1 15620 985 GCA_000638875.1 1413455 1280 Staphylococcus aureus C5086 C5086 Firmicutes KK223462.1 3 EZX64345.1 15623 986 GCA_000638895.1 1413480 1280 Staphylococcus aureus C5453 C5453 Firmicutes KK223489.1 3 EZX67972.1 15626 987 GCA_000638915.1 1413549 1280 Staphylococcus aureus Chi-10 Chi-10 Firmicutes KK223517.1 3 EZX70983.1 15629 988 GCA_000638935.1 1413548 1280 Staphylococcus aureus Chi-4 Chi-4 Firmicutes KK223557.1 3 EZX70899.1 15632 989 GCA_000638955.1 1413550 1280 Staphylococcus aureus Chi-8 Chi-8 Firmicutes KK223582.1 3 EZX78545.1 15635 990 GCA_000638975.1 1413577 1280 Staphylococcus aureus DICM09/ DICM09/ Firmicutes KK223626.1 3 EZX83217.1 15638 00997-9HST2 00997-9HST2 991 GCA_000638995.1 1413580 1280 Staphylococcus aureus DICM09/ DICM09/ Firmicutes KK223686.1 3 EZX78168.1 15641 01587-13HST 01587-13HST 992 GCA_000639015.1 1413439 1280 Staphylococcus aureus FP_N239 FP_N239 Firmicutes KK223720.1 3 EZX83512.1 15644 993 GCA_000639035.1 1413440 1280 Staphylococcus aureus FP_N5203 OX FP_N5203 OX Firmicutes KK223754.1 3 EZX85564.1 15647 994 GCA_000639055.1 1413441 1280 Staphylococcus aureus FP_N5208 OX FP_N5208 OX Firmicutes KK223787.1 3 EZX88439.1 15650 995 GCA_000639075.1 1413567 1280 Staphylococcus aureus GD2010-052 GD2010-052 Firmicutes KK223829.1 3 EZX90794.1 15653 996 GCA_000639095.1 1413568 1280 Staphylococcus aureus GD2010-061 GD2010-061 Firmicutes KK223867.1 3 EZX93307.1 15656 997 GCA_000639115.1 1413526 1280 Staphylococcus aureus GD2010-090 GD2010-090 Firmicutes KK223898.1 3 EZX97302.1 15659 998 GCA_000639135.1 1413569 1280 Staphylococcus aureus GD2010-102 GD2010-102 Firmicutes KK223946.1 3 EZX98401.1 15662 999 GCA_000639155.1 1413528 1280 Staphylococcus aureus GD2010-107 GD2010-107 Firmicutes KK223977.1 3 EZY04106.1 15665 1000 GCA_000639175.1 1413527 1280 Staphylococcus aureus GD2010-110 GD2010-110 Firmicutes KK224019.1 3 EZY04548.1 15668 1001 GCA_000639195.1 1413530 1280 Staphylococcus aureus GD2010-112 GD2010-112 Firmicutes KK224053.1 3 EZY06602.1 15671 1002 GCA_000639215.1 1413529 1280 Staphylococcus aureus GD2010-115 GD2010-115 Firmicutes KK224086.1 3 EZY11332.1 15674 1003 GCA_000639235.1 1413531 1280 Staphylococcus aureus GD2010-131 GD2010-131 Firmicutes KK224135.1 3 EZY13792.1 15677 1004 GCA_000639255.1 1413532 1280 Staphylococcus aureus GD2010-147 GD2010-147 Firmicutes KK224189.1 3 EZY14132.1 15680 1005 GCA_000639275.1 1413533 1280 Staphylococcus aureus GD2010-155 GD2010-155 Firmicutes KK224222.1 3 EZY14216.1 15683 1006 GCA_000639295.1 1413534 1280 Staphylococcus aureus GD2010-158 GD2010-158 Firmicutes KK224237.1 3 EZY21814.1 15686 1007 GCA_000639315.1 1413537 1280 Staphylococcus aureus GD2010-168 GD2010-168 Firmicutes KK224279.1 3 EZY21674.1 15689 1008 GCA_000639335.1 1413525 1280 Staphylococcus aureus GD2010-177 GD2010-177 Firmicutes KK224318.1 3 EZY24519.1 15692 1009 GCA_000639355.1 1413323 1280 Staphylococcus aureus M118-B M118-B Firmicutes KK224362.1 3 EZY26573.1 15695 1010 GCA_000639375.1 1413442 1280 Staphylococcus aureus M267-1 M267-1 Firmicutes KK224385.1 3 EZY29473.1 15698 1011 GCA_000639395.1 1413443 1280 Staphylococcus aureus M357 M357 Firmicutes KK224412.1 3 EZY31974.1 15701 1012 GCA_000639415.1 1413444 1280 Staphylococcus aureus M457-1 M457-1 Firmicutes KK224434.1 3 EZY36828.1 15704 1013 GCA_000639435.1 1413445 1280 Staphylococcus aureus M520-1 M520-1 Firmicutes KK224471.1 3 EZY36641.1 15707 1014 GCA_000639455.1 1413495 1280 Staphylococcus aureus MRSA-118 MRSA-118 Firmicutes KK224503.1 3 EZY38136.1 15710 1015 GCA_000639475.1 1413497 1280 Staphylococcus aureus MRSA-136 MRSA-136 Firmicutes KK224533.1 3 EZY43514.1 15713 1016 GCA_000639495.1 1413492 1280 Staphylococcus aureus MSSA-93 MSSA-93 Firmicutes KK224580.1 3 EZY44867.1 15716 1017 GCA_000639515.1 1413498 1280 Staphylococcus aureus N0426 N0426 Firmicutes KK224621.1 3 EZY46959.1 15719 1018 GCA_000639535.1 1413499 1280 Staphylococcus aureus N1343 N1343 Firmicutes KK224655.1 3 EZY51217.1 15722 1019 GCA_000639555.1 1413512 1280 Staphylococcus aureus P0218 P0218 Firmicutes KK224694.1 3 EZY52189.1 15725 1020 GCA_000639575.1 1413489 1280 Staphylococcus aureus PA11 PA11 Firmicutes KK224731.1 3 EZY54364.1 15728 1021 GCA_000639595.1 1413490 1280 Staphylococcus aureus PA57 PA57 Firmicutes KK224756.1 3 EZY58964.1 15731 1022 GCA_000639635.1 1413501 1280 Staphylococcus aureus R0353 R0353 Firmicutes KK224861.1 3 EZY61861.1 15734 1023 GCA_000639655.1 1413502 1280 Staphylococcus aureus R0357 R0357 Firmicutes KK224908.1 3 EZY66174.1 15737 1024 GCA_000639675.1 1413503 1280 Staphylococcus aureus R0487 R0487 Firmicutes KK224950.1 3 EZY70311.1 15740 1025 GCA_000639695.1 1413504 1280 Staphylococcus aureus R0545 R0545 Firmicutes KK225002.1 3 EZY70617.1 15743 1026 GCA_000639715.1 1413505 1280 Staphylococcus aureus R0611 R0611 Firmicutes KK225056.1 3 EZY75196.1 15746 1027 GCA_000639735.1 1413506 1280 Staphylococcus aureus R0615 R0615 Firmicutes KK225109.1 3 EZY78995.1 15749 1028 GCA_000639755.1 1413538 1280 Staphylococcus aureus Rd.3 Rd.3 Firmicutes KK225169.1 3 EZY77812.1 15752 1029 GCA_000639775.1 1413540 1280 Staphylococcus aureus Rd.40 Rd.40 Firmicutes KK225209.1 3 EZY80413.1 15755 1030 GCA_000639795.1 1413541 1280 Staphylococcus aureus Rd.51 Rd.51 Firmicutes KK225236.1 3 EZY85273.1 15758 1031 GCA_000639815.1 1413563 1280 Staphylococcus aureus Rd.545 Rd.545 Firmicutes KK225257.1 3 EZY90749.1 15761 1032 GCA_000639835.1 1413542 1280 Staphylococcus aureus Rd.60 Rd.60 Firmicutes KK225318.1 3 EZY86733.1 15764 1033 GCA_000639855.1 1413564 1280 Staphylococcus aureus Rd.614 Rd.614 Firmicutes KK225337.1 3 EZY93710.1 15767 1034 GCA_000639875.1 1413539 1280 Staphylococcus aureus Rd.9 Rd.9 Firmicutes KK225372.1 3 EZY96337.1 15770 1035 GCA_000639895.1 1413484 1280 Staphylococcus aureus S56_POEL S56_POEL Firmicutes KK225426.1 3 EZY99137.1 15773 1036 GCA_000639915.1 1413485 1280 Staphylococcus aureus S62_POEL S62_POEL Firmicutes KK225491.1 3 EZZ00577.1 15776 1037 GCA_000639935.1 1413488 1280 Staphylococcus aureus S69_POEL S69_POEL Firmicutes KK225547.1 3 EZZ04415.1 15779 1038 GCA_000639955.1 1413446 1280 Staphylococcus aureus SARM C4155 SARM C4155 Firmicutes KK225609.1 3 EZZ04097.1 15782 1039 GCA_000639975.1 1413447 1280 Staphylococcus aureus SARM C5621 SARM C5621 Firmicutes KK225630.1 3 EZZ07028.1 15785 1040 GCA_000639995.1 1413382 1280 Staphylococcus aureus Sau 194 Sau 194 Firmicutes KK225664.1 3 EZZ11502.1 15788 1041 GCA_000640015.1 1413374 1280 Staphylococcus aureus Sau 44 Sau 44 Firmicutes KK225696.1 3 EZZ12223.1 15791 1042 GCA_000640035.1 1413375 1280 Staphylococcus aureus Sau 46 Sau 46 Firmicutes KK225732.1 3 EZZ13376.1 15794 1043 GCA_000640055.1 1413376 1280 Staphylococcus aureus Sau 47 Sau 47 Firmicutes KK225762.1 3 EZZ20017.1 15797 1044 GCA_000640075.1 1413377 1280 Staphylococcus aureus Sau 74 Sau 74 Firmicutes KK225802.1 3 EZZ20493.1 15800 1045 GCA_000640095.1 1413378 1280 Staphylococcus aureus Sau 93 Sau 93 Firmicutes KK225836.1 3 EZZ22879.1 15803 1046 GCA_000640115.1 1413379 1280 Staphylococcus aureus Sau 95 Sau 95 Firmicutes KK225869.1 3 EZZ27504.1 15806 1047 GCA_000640135.1 1413380 1280 Staphylococcus aureus Sau 98 Sau 98 Firmicutes KK225900.1 3 EZZ27419.1 15809 1048 GCA_000640175.1 1413555 1280 Staphylococcus aureus Tur-12 Tur-12 Firmicutes KK225980.1 3 EZZ33553.1 15812 1049 GCA_000640195.1 1413556 1280 Staphylococcus aureus Tur-15 Tur-15 Firmicutes KK226022.1 3 EZZ35199.1 15815 1050 GCA_000640215.1 1413373 1280 Staphylococcus aureus Tur-16 Tur-16 Firmicutes KK226052.1 3 EZZ38883.1 15818 1051 GCA_000640235.1 1413551 1280 Staphylococcus aureus Tur-20 Tur-20 Firmicutes KK226092.1 3 EZZ42314.1 15821 1052 GCA_000640255.1 1413552 1280 Staphylococcus aureus Tur-22 Tur-22 Firmicutes KK226129.1 3 EZZ43690.1 15824 1053 GCA_000640275.1 1413554 1280 Staphylococcus aureus Tur-6 Tur-6 Firmicutes KK226169.1 3 EZZ46493.1 15827 1054 GCA_000640295.1 1413331 1280 Staphylococcus aureus UB 08-116 UB 08-116 Firmicutes KK226203.1 3 EZZ50763.1 15830 1055 GCA_000640315.1 1413332 1280 Staphylococcus aureus UB 08-172 UB 08-172 Firmicutes KK226235.1 3 EZZ51037.1 15833 1056 GCA_000640335.1 1413602 1280 Staphylococcus aureus USA_1 USA_1 Firmicutes KK226264.1 3 EZZ53438.1 15836 1057 GCA_000640355.1 1413607 1280 Staphylococcus aureus USA_11 USA_11 Firmicutes KK226275.1 3 EZZ62216.1 15839 1058 GCA_000640375.1 1413608 1280 Staphylococcus aureus USA_12 USA_12 Firmicutes KK226308.1 3 EZZ58809.1 15842 1059 GCA_000640395.1 1413609 1280 Staphylococcus aureus USA_15 USA_15 Firmicutes KK226326.1 3 EZZ63777.1 15845 1060 GCA_000640415.1 1413605 1280 Staphylococcus aureus USA_8 USA_8 Firmicutes KK226363.1 3 EZZ66976.1 15848 1061 GCA_000640435.1 1413606 1280 Staphylococcus aureus USA_9 USA_9 Firmicutes KK226405.1 3 EZZ65105.1 15851 1062 GCA_000640455.1 1413604 1280 Staphylococcus aureus USA7 USA7 Firmicutes KK226422.1 3 EZZ70714.1 15854 1063 GCA_000640475.1 1413448 1280 Staphylococcus aureus VE07/03048STA VE07/03048STA Firmicutes KK226453.1 3 EZZ73603.1 15857 1064 GCA_000640495.1 1413449 1280 Staphylococcus aureus VE08/02126ST1 VE08/02126ST1 Firmicutes KK226495.1 3 EZZ75114.1 15860 1065 GCA_000640515.1 1413451 1280 Staphylococcus aureus VE08/02244ST1 VE08/02244ST1 Firmicutes KK226529.1 3 EZZ75511.1 15863 1066 GCA_000640535.1 1422391 1280 Staphylococcus aureus VET0051R VET0051R Firmicutes KK226556.1 3 EZZ82800.1 15866 1067 GCA_000640555.1 1422392 1280 Staphylococcus aureus VET0052R VET0052R Firmicutes KK226598.1 3 EZZ83623.1 15869 1068 GCA_000640575.1 1422393 1280 Staphylococcus aureus VET0053R VET0053R Firmicutes KK226639.1 3 EZZ82655.1 15872 1069 GCA_000640595.1 1422394 1280 Staphylococcus aureus VET0054R VET0054R Firmicutes KK226674.1 3 EZZ89015.1 15875 1070 GCA_000640615.1 1422395 1280 Staphylococcus aureus VET0055R VET0055R Firmicutes KK226711.1 3 EZZ92962.1 15878 1071 GCA_000640635.1 1422396 1280 Staphylococcus aureus VET0057R VET0057R Firmicutes KK226773.1 3 EZZ92684.1 15881 1072 GCA_000640655.1 1422398 1280 Staphylococcus aureus VET0059R VET0059R Firmicutes KK226834.1 3 EZZ95684.1 15884 1073 GCA_000640675.1 1422399 1280 Staphylococcus aureus VET0060R VET0060R Firmicutes KK226872.1 3 KAA05377.1 15887 1074 GCA_000640695.1 1422400 1280 Staphylococcus aureus VET0061R VET0061R Firmicutes KK226919.1 3 KAA05544.1 15890 1075 GCA_000640715.1 1422401 1280 Staphylococcus aureus VET0062R VET0062R Firmicutes KK226958.1 3 KAA05953.1 15893 1076 GCA_000640735.1 1422402 1280 Staphylococcus aureus VET0063R VET0063R Firmicutes KK226999.1 3 KAA13000.1 15896 1077 GCA_000640755.1 1422403 1280 Staphylococcus aureus VET0065R VET0065R Firmicutes KK227042.1 3 KAA12393.1 15899 1078 GCA_000640775.1 1422404 1280 Staphylococcus aureus VET0066R VET0066R Firmicutes KK227076.1 3 KAA13619.1 15902 1079 GCA_000640795.1 1422405 1280 Staphylococcus aureus VET0067R VET0067R Firmicutes KK227106.1 3 KAA22643.1 15905 1080 GCA_000640815.1 1422406 1280 Staphylococcus aureus VET0069R VET0069R Firmicutes KK227159.1 3 KAA21033.1 15908 1081 GCA_000640835.1 1422407 1280 Staphylococcus aureus VET0070R VET0070R Firmicutes KK227206.1 3 KAA21282.1 15911 1082 GCA_000640855.1 1422408 1280 Staphylococcus aureus VET0072R VET0072R Firmicutes KK227240.1 3 KAA28470.1 15914 1083 GCA_000640875.1 1422409 1280 Staphylococcus aureus VET0073R VET0073R Firmicutes KK227288.1 3 KAA29978.1 15917 1084 GCA_000640895.1 1422410 1280 Staphylococcus aureus VET0075R VET0075R Firmicutes KK227338.1 3 KAA28571.1 15920 1085 GCA_000640915.1 1422411 1280 Staphylococcus aureus VET0076R VET0076R Firmicutes KK227375.1 3 KAA35386.1 15923 1086 GCA_000640935.1 1422412 1280 Staphylococcus aureus VET0077R VET0077R Firmicutes KK227403.1 3 KAA38915.1 15926 1087 GCA_000640955.1 1422414 1280 Staphylococcus aureus VET0080R VET0080R Firmicutes KK227448.1 3 KAA39462.1 15929 1088 GCA_000640975.1 1422416 1280 Staphylococcus aureus VET0083R VET0083R Firmicutes KK227491.1 3 KAA42954.1 15932 1089 GCA_000640995.1 1422417 1280 Staphylococcus aureus VET0084R VET0084R Firmicutes KK227523.1 3 KAA45225.1 15935 1090 GCA_000641015.1 1422418 1280 Staphylococcus aureus VET0085R VET0085R Firmicutes KK227565.1 3 KAA46801.1 15938 1091 GCA_000641035.1 1422419 1280 Staphylococcus aureus VET0086R VET0086R Firmicutes KK227605.1 3 KAA49913.1 15941 1092 GCA_000641055.1 1422420 1280 Staphylococcus aureus VET0087R VET0087R Firmicutes KK227638.1 3 KAA51796.1 15944 1093 GCA_000641075.1 1422421 1280 Staphylococcus aureus VET0088R VET0088R Firmicutes KK227658.1 3 KAA59416.1 15947 1094 GCA_000641095.1 1422422 1280 Staphylococcus aureus VET0089R VET0089R Firmicutes KK227710.1 3 KAA58407.1 15950 1095 GCA_000641115.1 1422423 1280 Staphylococcus aureus VET0090R VET0090R Firmicutes KK227736.1 3 KAA61962.1 15953 1096 GCA_000641135.1 1422424 1280 Staphylococcus aureus VET0091R VET0091R Firmicutes KK227783.1 3 KAA63552.1 15956 1097 GCA_000641155.1 1422425 1280 Staphylococcus aureus VET0092R VET0092R Firmicutes KK227826.1 3 KAA66140.1 15959 1098 GCA_000641175.1 1422426 1280 Staphylococcus aureus VET0093R VET0093R Firmicutes KK227870.1 3 KAA68224.1 15962 1099 GCA_000641195.1 1422427 1280 Staphylococcus aureus VET0094R VET0094R Firmicutes KK227907.1 3 KAA73513.1 15965 1100 GCA_000641215.1 1422428 1280 Staphylococcus aureus VET0095R VET0095R Firmicutes KK227954.1 3 KAA74080.1 15968 1101 GCA_000641235.1 1422429 1280 Staphylococcus aureus VET0097R VET0097R Firmicutes KK227993.1 3 KAA76198.1 15971 1102 GCA_000641255.1 1422430 1280 Staphylococcus aureus VET0098R VET0098R Firmicutes KK228029.1 3 KAA79422.1 15974 1103 GCA_000641275.1 1422431 1280 Staphylococcus aureus VET0099R VET0099R Firmicutes KK228070.1 3 KAA82180.1 15977 1104 GCA_000641295.1 1422432 1280 Staphylococcus aureus VET0101R VET0101R Firmicutes KK228126.1 3 KAA82201.1 15980 1105 GCA_000641315.1 1422434 1280 Staphylococcus aureus VET0103R VET0103R Firmicutes KK228153.1 3 KAA86323.1 15983 1106 GCA_000641335.1 1422435 1280 Staphylococcus aureus VET0104R VET0104R Firmicutes KK228187.1 3 KAA89640.1 15986 1107 GCA_000641355.1 1422436 1280 Staphylococcus aureus VET0105R VET0105R Firmicutes KK228218.1 3 KAA93204.1 15989 1108 GCA_000641375.1 1422437 1280 Staphylococcus aureus VET0107R VET0107R Firmicutes KK228279.1 3 KAA93403.1 15992 1109 GCA_000641395.1 1422438 1280 Staphylococcus aureus VET0110R VET0110R Firmicutes KK228324.1 3 KAA96433.1 15995 1110 GCA_000641415.1 1422440 1280 Staphylococcus aureus VET0112R VET0112R Firmicutes KK228363.1 3 KAB00569.1 15998 1111 GCA_000641435.1 1422442 1280 Staphylococcus aureus VET0114R VET0114R Firmicutes KK228395.1 3 KAB03847.1 16001 1112 GCA_000641455.1 1422443 1280 Staphylococcus aureus VET0115R VET0115R Firmicutes KK228451.1 3 KAB06658.1 16004 1113 GCA_000641475.1 1422444 1280 Staphylococcus aureus VET0116R VET0116R Firmicutes KK228505.1 3 KAB08922.1 16007 1114 GCA_000641495.1 1422445 1280 Staphylococcus aureus VET0117R VET0117R Firmicutes KK228551.1 3 KAB10432.1 16010 1115 GCA_000641515.1 1422446 1280 Staphylococcus aureus VET0119R VET0119R Firmicutes KK228588.1 3 KAB11616.1 16013 1116 GCA_000641535.1 1422448 1280 Staphylococcus aureus VET0123R VET0123R Firmicutes KK228618.1 3 KAB16350.1 16016 1117 GCA_000641555.1 1422449 1280 Staphylococcus aureus VET0124R VET0124R Firmicutes KK228659.1 3 KAB18689.1 16019 1118 GCA_000641575.1 1422451 1280 Staphylococcus aureus VET0126R VET0126R Firmicutes KK228701.1 3 KAB19935.1 16022 1119 GCA_000641595.1 1422452 1280 Staphylococcus aureus VET0127R VET0127R Firmicutes KK228748.1 3 KAB24080.1 16025 1120 GCA_000641615.1 1422453 1280 Staphylococcus aureus VET0128R VET0128R Firmicutes KK228781.1 3 KAB29327.1 16028 1121 GCA_000641635.1 1422454 1280 Staphylococcus aureus VET0129R VET0129R Firmicutes KK228823.1 3 KAB29477.1 16031 1122 GCA_000641655.1 1422455 1280 Staphylococcus aureus VET0130R VET0130R Firmicutes KK228852.1 3 KAB32012.1 16034 1123 GCA_000641675.1 1422456 1280 Staphylococcus aureus VET0132R VET0132R Firmicutes KK228890.1 3 KAB33825.1 16037 1124 GCA_000641695.1 1422457 1280 Staphylococcus aureus VET0133R VET0133R Firmicutes KK228932.1 3 KAB37793.1 16040 1125 GCA_000641715.1 1422458 1280 Staphylococcus aureus VET0134R VET0134R Firmicutes KK228988.1 3 KAB38132.1 16043 1126 GCA_000641735.1 1422460 1280 Staphylococcus aureus VET0140R VET0140R Firmicutes KK229019.1 3 KAB42667.1 16046 1127 GCA_000641755.1 1422462 1280 Staphylococcus aureus VET0148R VET0148R Firmicutes KK229051.1 3 KAB46003.1 16049 1128 GCA_000641775.1 1422464 1280 Staphylococcus aureus VET0151R VET0151R Firmicutes KK229081.1 3 KAB45741.1 16052 1129 GCA_000641795.1 1422465 1280 Staphylococcus aureus VET0152R VET0152R Firmicutes KK229110.1 3 KAB51677.1 16055 1130 GCA_000641815.1 1422467 1280 Staphylococcus aureus VET0155R VET0155R Firmicutes KK229172.1 3 KAB53193.1 16058 1131 GCA_000641835.1 1422468 1280 Staphylococcus aureus VET0156R VET0156R Firmicutes KK229219.1 3 KAB55784.1 16061 1132 GCA_000641855.1 1422472 1280 Staphylococcus aureus VET0161R VET0161R Firmicutes KK229266.1 3 KAB58082.1 16064 1133 GCA_000641875.1 1422473 1280 Staphylococcus aureus VET0162R VET0162R Firmicutes KK229299.1 3 KAB59419.1 16067 1134 GCA_000641895.1 1422474 1280 Staphylococcus aureus VET0164R VET0164R Firmicutes KK229332.1 3 KAB62993.1 16070 1135 GCA_000641915.1 1422475 1280 Staphylococcus aureus VET0165R VET0165R Firmicutes KK229377.1 3 KAB66109.1 16073 1136 GCA_000641935.1 1422476 1280 Staphylococcus aureus VET0166R VET0166R Firmicutes KK229442.1 3 KAB66874.1 16076 1137 GCA_000641955.1 1422477 1280 Staphylococcus aureus VET0167R VET0167R Firmicutes KK229493.1 3 KAB70776.1 16079 1138 GCA_000641975.1 1422478 1280 Staphylococcus aureus VET0171R VET0171R Firmicutes KK229539.1 3 KAB73064.1 16082 1139 GCA_000641995.1 1422479 1280 Staphylococcus aureus VET0176R VET0176R Firmicutes KK229579.1 3 KAB75150.1 16085 1140 GCA_000642015.1 1422480 1280 Staphylococcus aureus VET0177R VET0177R Firmicutes KK229612.1 3 KAB78038.1 16088 1141 GCA_000642035.1 1422481 1280 Staphylococcus aureus VET0178R VET0178R Firmicutes KK229644.1 3 KAB81593.1 16091 1142 GCA_000642055.1 1422482 1280 Staphylococcus aureus VET0179R VET0179R Firmicutes KK229686.1 3 KAB84387.1 16094 1143 GCA_000642075.1 1422483 1280 Staphylococcus aureus VET0180R VET0180R Firmicutes KK229729.1 3 KAB84694.1 16097 1144 GCA_000642095.1 1422488 1280 Staphylococcus aureus VET0188R VET0188R Firmicutes KK229754.1 3 KAB91416.1 16100 1145 GCA_000642115.1 1422489 1280 Staphylococcus aureus VET0189R VET0189R Firmicutes KK229800.1 3 KAB92906.1 16103 1146 GCA_000642135.1 1422490 1280 Staphylococcus aureus VET0190R VET0190R Firmicutes KK229842.1 3 KAB93617.1 16106 1147 GCA_000642155.1 1422492 1280 Staphylococcus aureus VET0192R VET0192R Firmicutes KK229894.1 3 KAB98475.1 16109 1148 GCA_000642175.1 1422493 1280 Staphylococcus aureus VET0193R VET0193R Firmicutes KK229956.1 3 KAB98436.1 16112 1149 GCA_000642195.1 1422494 1280 Staphylococcus aureus VET0194R VET0194R Firmicutes KK230007.1 3 KAC00309.1 16115 1150 GCA_000642215.1 1422495 1280 Staphylococcus aureus VET0195R VET0195R Firmicutes KK230044.1 3 KAC04037.1 16118 1151 GCA_000642235.1 1422498 1280 Staphylococcus aureus VET0198R VET0198R Firmicutes KK230081.1 3 KAC08058.1 16121 1152 GCA_000642255.1 1422500 1280 Staphylococcus aureus VET0200R VET0200R Firmicutes KK230124.1 3 KAC10255.1 16124 1153 GCA_000642275.1 1422508 1280 Staphylococcus aureus VET0212R VET0212R Firmicutes KK230171.1 3 KAC11816.1 16127 1154 GCA_000642295.1 1422509 1280 Staphylococcus aureus VET0213R VET0213R Firmicutes KK230206.1 3 KAC14781.1 16130 1155 GCA_000642315.1 1422510 1280 Staphylococcus aureus VET0214R VET0214R Firmicutes KK230245.1 3 KAC17658.1 16133 1156 GCA_000642335.1 1422511 1280 Staphylococcus aureus VET0215R VET0215R Firmicutes KK230294.1 3 KAC20377.1 16136 1157 GCA_000642355.1 1422512 1280 Staphylococcus aureus VET0216R VET0216R Firmicutes KK230357.1 3 KAC21946.1 16139 1158 GCA_000642375.1 1422513 1280 Staphylococcus aureus VET0217R VET0217R Firmicutes KK230406.1 3 KAC25278.1 16142 1159 GCA_000642395.1 1422514 1280 Staphylococcus aureus VET0218R VET0218R Firmicutes KK230455.1 3 KAC29151.1 16145 1160 GCA_000642415.1 1422516 1280 Staphylococcus aureus VET0221R VET0221R Firmicutes KK230491.1 3 KAC33554.1 16148 1161 GCA_000642435.1 1422517 1280 Staphylococcus aureus VET0222R VET0222R Firmicutes KK230550.1 3 KAC34157.1 16151 1162 GCA_000642455.1 1422518 1280 Staphylococcus aureus VET0224R VET0224R Firmicutes KK230611.1 3 KAC33241.1 16154 1163 GCA_000642475.1 1422519 1280 Staphylococcus aureus VET0227R VET0227R Firmicutes KK230635.1 3 KAC37672.1 16157 1164 GCA_000642495.1 1422520 1280 Staphylococcus aureus VET0228R VET0228R Firmicutes KK230680.1 3 KAC40880.1 16160 1165 GCA_000642515.1 1422522 1280 Staphylococcus aureus VET0230R VET0230R Firmicutes KK230709.1 3 KAC45126.1 16163 1166 GCA_000642535.1 1422525 1280 Staphylococcus aureus VET0236R VET0236R Firmicutes KK230757.1 3 KAC44749.1 16166 1167 GCA_000642555.1 1422526 1280 Staphylococcus aureus VET0237R VET0237R Firmicutes KK230781.1 3 KAC51539.1 16169 1168 GCA_000642575.1 1422527 1280 Staphylococcus aureus VET0241R VET0241R Firmicutes KK230828.1 3 KAC50575.1 16172 1169 GCA_000642595.1 1422528 1280 Staphylococcus aureus VET0243R VET0243R Firmicutes KK230863.1 3 KAC52444.1 16175 1170 GCA_000642615.1 1422530 1280 Staphylococcus aureus VET0247R VET0247R Firmicutes KK230896.1 3 KAC57903.1 16178 1171 GCA_000642635.1 1422531 1280 Staphylococcus aureus VET0249R VET0249R Firmicutes KK230930.1 3 KAC59267.1 16181 1172 GCA_000642655.1 1422533 1280 Staphylococcus aureus VET0252R VET0252R Firmicutes KK230956.1 3 KAC64902.1 16184 1173 GCA_000642675.1 1422534 1280 Staphylococcus aureus VET0253R VET0253R Firmicutes KK231012.1 3 KAC65216.1 16187 1174 GCA_000642695.1 1422535 1280 Staphylococcus aureus VET0254R VET0254R Firmicutes KK231053.1 3 KAC66579.1 16190 1175 GCA_000642715.1 1422536 1280 Staphylococcus aureus VET0256R VET0256R Firmicutes KK231074.1 3 KAC76251.1 16193 1176 GCA_000642735.1 1422537 1280 Staphylococcus aureus VET0259R VET0259R Firmicutes KK231155.1 3 KAC70676.1 16196 1177 GCA_000642755.1 1422538 1280 Staphylococcus aureus VET0260R VET0260R Firmicutes KK231188.1 3 KAC73890.1 16199 1178 GCA_000642775.1 1422539 1280 Staphylococcus aureus VET0261R VET0261R Firmicutes KK231221.1 3 KAC78737.1 16202 1179 GCA_000642795.1 1422540 1280 Staphylococcus aureus VET0263R VET0263R Firmicutes KK231265.1 3 KAC82512.1 16205 1180 GCA_000642815.1 1422541 1280 Staphylococcus aureus VET0267R VET0267R Firmicutes KK231317.1 3 KAC80332.1 16208 1181 GCA_000642835.1 1422542 1280 Staphylococcus aureus VET0268R VET0268R Firmicutes KK231348.1 3 KAC86159.1 16211 1182 GCA_000642855.1 1422543 1280 Staphylococcus aureus VET0269R VET0269R Firmicutes KK231386.1 3 KAC89254.1 16214 1183 GCA_000642875.1 1422544 1280 Staphylococcus aureus VET0270R VET0270R Firmicutes KK231435.1 3 KAC89181.1 16217 1184 GCA_000642895.1 1422545 1280 Staphylococcus aureus VET0271R VET0271R Firmicutes KK231470.1 3 KAC93844.1 16220 1185 GCA_000642915.1 1422546 1280 Staphylococcus aureus VET0275R VET0275R Firmicutes KK231503.1 3 KAC96630.1 16223 1186 GCA_000642935.1 1422547 1280 Staphylococcus aureus VET0278R VET0278R Firmicutes KK231552.1 3 KAC97653.1 16226 1187 GCA_000642955.1 1422548 1280 Staphylococcus aureus VET0279R VET0279R Firmicutes KK231605.1 3 KAD00064.1 16229 1188 GCA_000642975.1 1422549 1280 Staphylococcus aureus VET0280R VET0280R Firmicutes KK231633.1 3 KAD04306.1 16232 1189 GCA_000642995.1 1422550 1280 Staphylococcus aureus VET0282R VET0282R Firmicutes KK231663.1 3 KAD08152.1 16235 1190 GCA_000643015.1 1422551 1280 Staphylococcus aureus VET0283R VET0283R Firmicutes KK231710.1 3 KAD07875.1 16238 1191 GCA_000643035.1 1422552 1280 Staphylococcus aureus VET0284R VET0284R Firmicutes KK231759.1 3 KAD11428.1 16241 1192 GCA_000643055.1 1422553 1280 Staphylococcus aureus VET0286R VET0286R Firmicutes KK231797.1 3 KAD14196.1 16244 1193 GCA_000643075.1 1422554 1280 Staphylococcus aureus VET0287R VET0287R Firmicutes KK231839.1 3 KAD16933.1 16247 1194 GCA_000643095.1 1422555 1280 Staphylococcus aureus VET0288R VET0288R Firmicutes KK231877.1 3 KAD20112.1 16250 1195 GCA_000643115.1 1422556 1280 Staphylococcus aureus VET0289R VET0289R Firmicutes KK231905.1 3 KAD22452.1 16253 1196 GCA_000643135.1 1422557 1280 Staphylococcus aureus VET0290R VET0290R Firmicutes KK231934.1 3 KAD23853.1 16256 1197 GCA_000643155.1 1422558 1280 Staphylococcus aureus VET0291R VET0291R Firmicutes KK231957.1 3 KAD27442.1 16259 1198 GCA_000643175.1 1422559 1280 Staphylococcus aureus VET0292R VET0292R Firmicutes KK231982.1 3 KAD29135.1 16262 1199 GCA_000643195.1 1422561 1280 Staphylococcus aureus VET0294R VET0294R Firmicutes KK232006.1 3 KAD33183.1 16265 1200 GCA_000643215.1 1422562 1280 Staphylococcus aureus VET0295R VET0295R Firmicutes KK232044.1 3 KAD35158.1 16268 1201 GCA_000643235.1 1422563 1280 Staphylococcus aureus VET0296R VET0296R Firmicutes KK232071.1 3 KAD41139.1 16271 1202 GCA_000643255.1 1422564 1280 Staphylococcus aureus VET0297R VET0297R Firmicutes KK232123.1 3 KAD37497.1 16274 1203 GCA_000643275.1 1422566 1280 Staphylococcus aureus VET0299R VET0299R Firmicutes KK232151.1 3 KAD41938.1 16277 1204 GCA_000643295.1 1422567 1280 Staphylococcus aureus VET0300R VET0300R Firmicutes KK232180.1 3 KAD44775.1 16280 1205 GCA_000643315.1 1422569 1280 Staphylococcus aureus VET0302R VET0302R Firmicutes KK232221.1 3 KAD49432.1 16283 1206 GCA_000643335.1 1422570 1280 Staphylococcus aureus VET0303R VET0303R Firmicutes KK232282.1 3 KAD48763.1 16286 1207 GCA_000643355.1 1422571 1280 Staphylococcus aureus VET0304R VET0304R Firmicutes KK232321.1 3 KAD53925.1 16289 1208 GCA_000643375.1 1422572 1280 Staphylococcus aureus VET0305R VET0305R Firmicutes KK232371.1 3 KAD57265.1 16292 1209 GCA_000643395.1 1422574 1280 Staphylococcus aureus VET0307R VET0307R Firmicutes KK232424.1 3 KAD59398.1 16295 1210 GCA_000643415.1 1422575 1280 Staphylococcus aureus VET0308R VET0308R Firmicutes KK232479.1 3 KAD59590.1 16298 1211 GCA_000643435.1 1422576 1280 Staphylococcus aureus VET0309R VET0309R Firmicutes KK232506.1 3 KAD64095.1 16301 1212 GCA_000643455.1 1422577 1280 Staphylococcus aureus VET0312R VET0312R Firmicutes KK232547.1 3 KAD64971.1 16304 1213 GCA_000643475.1 1422578 1280 Staphylococcus aureus VET0313R VET0313R Firmicutes KK232579.1 3 KAD71132.1 16307 1214 GCA_000643495.1 1422579 1280 Staphylococcus aureus VET0314R VET0314R Firmicutes KK232626.1 3 KAD76144.1 16310 1215 GCA_000643515.1 1422580 1280 Staphylococcus aureus VET0315R VET0315R Firmicutes KK232671.1 3 KAD70469.1 16313 1216 GCA_000643535.1 1422581 1280 Staphylococcus aureus VET0316R VET0316R Firmicutes KK232698.1 3 KAD78845.1 16316 1217 GCA_000643555.1 1422582 1280 Staphylococcus aureus VET0317R VET0317R Firmicutes KK232759.1 3 KAD77330.1 16319 1218 GCA_000643575.1 1422583 1280 Staphylococcus aureus VET0318R VET0318R Firmicutes KK232802.1 3 KAD80657.1 16322 1219 GCA_000643595.1 1422585 1280 Staphylococcus aureus VET0320R VET0320R Firmicutes KK232846.1 3 KAD85222.1 16325 1220 GCA_000643615.1 1422586 1280 Staphylococcus aureus VET0322R VET0322R Firmicutes KK232899.1 3 KAD85662.1 16328 1221 GCA_000643635.1 1422587 1280 Staphylococcus aureus VET0323R VET0323R Firmicutes KK232949.1 3 KAD90247.1 16331 1222 GCA_000643655.1 1422588 1280 Staphylococcus aureus VET0325R VET0325R Firmicutes KK233004.1 3 KAD93694.1 16334 1223 GCA_000643675.1 1422589 1280 Staphylococcus aureus VET0326R VET0326R Firmicutes KK233060.1 3 KAD94381.1 16337 1224 GCA_000643695.1 1422590 1280 Staphylococcus aureus VET0329R VET0329R Firmicutes KK233107.1 3 KAD99176.1 16340 1225 GCA_000643715.1 1422591 1280 Staphylococcus aureus VET0331R VET0331R Firmicutes KK233161.1 3 KAD98842.1 16343 1226 GCA_000643735.1 1422593 1280 Staphylococcus aureus VET0333R VET0333R Firmicutes KK233217.1 3 KAD99163.1 16346 1227 GCA_000643755.1 1422594 1280 Staphylococcus aureus VET0335R VET0335R Firmicutes KK233273.1 3 KAE03357.1 16349 1228 GCA_000643775.1 1422595 1280 Staphylococcus aureus VET0336R VET0336R Firmicutes KK233293.1 3 KAE06091.1 16352 1229 GCA_000643795.1 1422596 1280 Staphylococcus aureus VET0337R VET0337R Firmicutes KK233320.1 3 KAE10343.1 16355 1230 GCA_000643815.1 1422597 1280 Staphylococcus aureus VET0338R VET0338R Firmicutes KK233365.1 3 KAE11832.1 16358 1231 GCA_000643835.1 1422598 1280 Staphylococcus aureus VET0339R VET0339R Firmicutes KK233392.1 3 KAE16058.1 16361 1232 GCA_000643855.1 1422599 1280 Staphylococcus aureus VET0340R VET0340R Firmicutes KK233439.1 3 KAE17680.1 16364 1233 GCA_000643875.1 1422600 1280 Staphylococcus aureus VET0341R VET0341R Firmicutes KK233484.1 3 KAE21314.1 16367 1234 GCA_000643895.1 1422603 1280 Staphylococcus aureus VET0352R VET0352R Firmicutes KK233526.1 3 KAE22706.1 16370 1235 GCA_000643915.1 1422605 1280 Staphylococcus aureus VET0354R VET0354R Firmicutes KK233565.1 3 KAE26218.1 16373 1236 GCA_000643935.1 1422606 1280 Staphylococcus aureus VET0357R VET0357R Firmicutes KK233602.1 3 KAE28381.1 16376 1237 GCA_000643955.1 1422608 1280 Staphylococcus aureus VET0359R VET0359R Firmicutes KK233637.1 3 KAE30967.1 16379 1238 GCA_000643975.1 1422609 1280 Staphylococcus aureus VET0360R VET0360R Firmicutes KK233668.1 3 KAE34716.1 16382 1239 GCA_000643995.1 1422611 1280 Staphylococcus aureus VET0363R VET0363R Firmicutes KK233714.1 3 KAE36917.1 16385 1240 GCA_000644015.1 1422613 1280 Staphylococcus aureus VET0366R VET0366R Firmicutes KK233762.1 3 KAE38769.1 16388 1241 GCA_000644035.1 1422614 1280 Staphylococcus aureus VET0367R VET0367R Firmicutes KK233806.1 3 KAE42476.1 16391 1242 GCA_000644055.1 1422616 1280 Staphylococcus aureus VET0369R VET0369R Firmicutes KK233856.1 3 KAE45135.1 16394 1243 GCA_000644075.1 1422617 1280 Staphylococcus aureus VET0373R VET0373R Firmicutes KK233916.1 3 KAE45866.1 16397 1244 GCA_000644095.1 1422618 1280 Staphylococcus aureus VET0376R VET0376R Firmicutes KK233953.1 3 KAE50291.1 16400 1245 GCA_000644115.1 1422619 1280 Staphylococcus aureus VET0382R VET0382R Firmicutes KK233998.1 3 KAE51871.1 16403 1246 GCA_000644135.1 1422620 1280 Staphylococcus aureus VET0383R VET0383R Firmicutes KK234034.1 3 KAE56033.1 16406 1247 GCA_000644155.1 1422621 1280 Staphylococcus aureus VET0384R VET0384R Firmicutes KK234091.1 3 KAE58619.1 16409 1248 GCA_000644175.1 1422622 1280 Staphylococcus aureus VET0387R VET0387R Firmicutes KK234154.1 3 KAE60715.1 16412 1249 GCA_000644195.1 1422623 1280 Staphylococcus aureus VET0388R VET0388R Firmicutes KK234207.1 3 KAE63797.1 16415 1250 GCA_000644215.1 1422624 1280 Staphylococcus aureus VET0389R VET0389R Firmicutes KK234244.1 3 KAE63594.1 16418 1251 GCA_000644235.1 1422625 1280 Staphylococcus aureus VET0390R VET0390R Firmicutes KK234279.1 3 KAE68676.1 16421 1252 GCA_000644255.1 1422626 1280 Staphylococcus aureus VET0393R VET0393R Firmicutes KK234337.1 3 KAE69670.1 16424 1253 GCA_000644275.1 1422627 1280 Staphylococcus aureus VET0394R VET0394R Firmicutes KK234392.1 3 KAE72491.1 16427 1254 GCA_000644295.1 1422628 1280 Staphylococcus aureus VET0395R VET0395R Firmicutes KK234444.1 3 KAE78484.1 16430 1255 GCA_000644315.1 1422629 1280 Staphylococcus aureus VET0396R VET0396R Firmicutes KK234517.1 3 KAE76736.1 16433 1256 GCA_000644335.1 1422630 1280 Staphylococcus aureus VET0399R VET0399R Firmicutes KK234558.1 3 KAE81551.1 16436 1257 GCA_000644355.1 1422632 1280 Staphylococcus aureus VET0401R VET0401R Firmicutes KK234614.1 3 KAE84897.1 16439 1258 GCA_000644375.1 1422633 1280 Staphylococcus aureus VET0402R VET0402R Firmicutes KK234667.1 3 KAE84991.1 16442 1259 GCA_000644395.1 1422634 1280 Staphylococcus aureus VET0403R VET0403R Firmicutes KK234707.1 3 KAE89404.1 16445 1260 GCA_000644415.1 1422635 1280 Staphylococcus aureus VET0406R VET0406R Firmicutes KK234760.1 3 KAE90296.1 16448 1261 GCA_000644435.1 1422636 1280 Staphylococcus aureus VET0407R VET0407R Firmicutes KK234801.1 3 KAE93402.1 16451 1262 GCA_000644455.1 1422637 1280 Staphylococcus aureus VET0410R VET0410R Firmicutes KK234843.1 3 KAE97233.1 16454 1263 GCA_000644475.1 1422638 1280 Staphylococcus aureus VET0411R VET0411R Firmicutes KK234874.1 3 KAE99814.1 16457 1264 GCA_000644495.1 1422639 1280 Staphylococcus aureus VET0412R VET0412R Firmicutes KK234915.1 3 KAE99887.1 16460 1265 GCA_000644515.1 1422640 1280 Staphylococcus aureus VET0413R VET0413R Firmicutes KK234944.1 3 KAF04816.1 16463 1266 GCA_000644535.1 1422642 1280 Staphylococcus aureus VET0415R VET0415R Firmicutes KK234978.1 3 KAF09789.1 16466 1267 GCA_000644555.1 1422643 1280 Staphylococcus aureus VET0417R VET0417R Firmicutes KK235031.1 3 KAF06948.1 16469 1268 GCA_000644575.1 1422644 1280 Staphylococcus aureus VET0418R VET0418R Firmicutes KK235067.1 3 KAF12149.1 16472 1269 GCA_000644595.1 1422645 1280 Staphylococcus aureus VET0421R VET0421R Firmicutes KK235112.1 3 KAF14362.1 16475 1270 GCA_000644615.1 1422647 1280 Staphylococcus aureus VET0423R VET0423R Firmicutes KK235151.1 3 KAF17950.1 16478 1271 GCA_000644635.1 1422649 1280 Staphylococcus aureus VET0425R VET0425R Firmicutes KK235201.1 3 KAF21049.1 16481 1272 GCA_000644655.1 1422651 1280 Staphylococcus aureus VET0427R VET0427R Firmicutes KK235253.1 3 KAF20976.1 16484 1273 GCA_000644675.1 1422652 1280 Staphylococcus aureus VET0428R VET0428R Firmicutes KK235284.1 3 KAF25643.1 16487 1274 GCA_000644695.1 1422653 1280 Staphylococcus aureus VET0431R VET0431R Firmicutes KK235319.1 3 KAF31108.1 16490 1275 GCA_000644715.1 1422654 1280 Staphylococcus aureus VET0432R VET0432R Firmicutes KK235373.1 3 KAF28014.1 16493 1276 GCA_000644735.1 1422655 1280 Staphylococcus aureus VET0433R VET0433R Firmicutes KK235408.1 3 KAF33774.1 16496 1277 GCA_000644755.1 1422656 1280 Staphylococcus aureus VET0434R VET0434R Firmicutes KK235447.1 3 KAF35730.1 16499 1278 GCA_000644775.1 1422657 1280 Staphylococcus aureus VET0435R VET0435R Firmicutes KK235486.1 3 KAF38655.1 16502 1279 GCA_000644795.1 1422660 1280 Staphylococcus aureus VET0438R VET0438R Firmicutes KK235526.1 3 KAF42882.1 16505 1280 GCA_000644815.1 1422661 1280 Staphylococcus aureus VET0439R VET0439R Firmicutes KK235571.1 3 KAF42846.1 16508 1281 GCA_000644835.1 1422662 1280 Staphylococcus aureus VET0440R VET0440R Firmicutes KK235606.1 3 KAF46909.1 16511 1282 GCA_000644855.1 1422663 1280 Staphylococcus aureus VET0442R VET0442R Firmicutes KK235649.1 3 KAF47443.1 16514 1283 GCA_000644875.1 1422664 1280 Staphylococcus aureus VET0443R VET0443R Firmicutes KK235707.1 3 KAF48000.1 16517 1284 GCA_000644895.1 1422665 1280 Staphylococcus aureus VET0444R VET0444R Firmicutes KK235727.1 3 KAF54049.1 16520 1285 GCA_000644915.1 1422666 1280 Staphylococcus aureus VET0446R VET0446R Firmicutes KK235765.1 3 KAF54414.1 16523 1286 GCA_000644935.1 1422667 1280 Staphylococcus aureus VET0451R VET0451R Firmicutes KK235791.1 3 KAF60186.1 16526 1287 GCA_000644955.1 1422668 1280 Staphylococcus aureus VET0452R VET0452R Firmicutes KK235845.1 3 KAF62547.1 16529 1288 GCA_000644975.1 1422669 1280 Staphylococcus aureus VET0454R VET0454R Firmicutes KK235896.1 3 KAF64112.1 16532 1289 GCA_000644995.1 1422670 1280 Staphylococcus aureus VET0455R VET0455R Firmicutes KK235952.1 3 KAF67904.1 16535 1290 GCA_000645015.1 1422671 1280 Staphylococcus aureus VET0456R VET0456R Firmicutes KK235994.1 3 KAF70713.1 16538 1291 GCA_000645035.1 1422672 1280 Staphylococcus aureus VET0459R VET0459R Firmicutes KK236040.1 3 KAF71815.1 16541 1292 GCA_000645055.1 1422673 1280 Staphylococcus aureus VET0460R VET0460R Firmicutes KK236088.1 3 KAF75590.1 16544 1293 GCA_000645075.1 1422674 1280 Staphylococcus aureus VET0462R VET0462R Firmicutes KK236132.1 3 KAF76891.1 16547 1294 GCA_000645095.1 1422675 1280 Staphylococcus aureus VET0463R VET0463R Firmicutes KK236171.1 3 KAF80459.1 16550 1295 GCA_000645115.1 1422676 1280 Staphylococcus aureus VET0464R VET0464R Firmicutes KK236208.1 3 KAF84648.1 16553 1296 GCA_000645155.1 1422679 1280 Staphylococcus aureus VET0468R VET0468R Firmicutes KK236266.1 3 KAF88486.1 16556 1297 GCA_000645175.1 1422681 1280 Staphylococcus aureus VET0470R VET0470R Firmicutes KK236311.1 3 KAF92874.1 16559 1298 GCA_000645195.1 1422685 1280 Staphylococcus aureus VET0478R VET0478R Firmicutes KK236370.1 3 KAF91778.1 16562 1299 GCA_000645215.1 1422686 1280 Staphylococcus aureus VET0481R VET0481R Firmicutes KK236396.1 3 KAG01061.1 16565 1300 GCA_000645235.1 1422687 1280 Staphylococcus aureus VET0485R VET0485R Firmicutes KK236455.1 3 KAF98702.1 16568 1301 GCA_000645255.1 1422688 1280 Staphylococcus aureus VET0486R VET0486R Firmicutes KK236493.1 3 KAF97456.1 16571 1302 GCA_000645275.1 1422689 1280 Staphylococcus aureus VET0488R VET0488R Firmicutes KK236523.1 3 KAG04155.1 16574 1303 GCA_000645295.1 1422752 1280 Staphylococcus aureus VET0519S VET0519S Firmicutes KK236567.1 3 KAG04820.1 16577 1304 GCA_000645315.1 1422691 1280 Staphylococcus aureus VET0596R VET0596R Firmicutes KK236596.1 3 KAG08556.1 16580 1305 GCA_000645355.1 1422755 1280 Staphylococcus aureus VET0645S VET0645S Firmicutes KK236705.1 3 KAG10681.1 16583 1306 GCA_000645375.1 1422756 1280 Staphylococcus aureus VET0657S VET0657S Firmicutes KK236725.1 3 KAG16001.1 16586 1307 GCA_000645435.1 1422760 1280 Staphylococcus aureus VET0779S VET0779S Firmicutes KK236834.1 3 KAG21726.1 16589 1308 GCA_000645475.1 1422763 1280 Staphylococcus aureus VET0809S VET0809S Firmicutes KK236898.1 3 KAG29030.1 16592 1309 GCA_000645495.1 1422764 1280 Staphylococcus aureus VET0810S VET0810S Firmicutes KK236944.1 3 KAG32270.1 16595 1310 GCA_000645535.1 1422766 1280 Staphylococcus aureus VET0919S VET0919S Firmicutes KK237057.1 3 KAG34711.1 16598 1311 GCA_000645555.1 1422767 1280 Staphylococcus aureus VET0920S VET0920S Firmicutes KK237082.1 3 KAG37987.1 16601 1312 GCA_000645655.1 1422772 1280 Staphylococcus aureus VET1035S VET1035S Firmicutes KK237308.1 3 KAG51662.1 16604 1313 GCA_000645675.1 1422773 1280 Staphylococcus aureus VET1048S VET1048S Firmicutes KK237351.1 3 KAG55493.1 16607 1314 GCA_000645695.1 1422774 1280 Staphylococcus aureus VET1052S VET1052S Firmicutes KK237399.1 3 KAG59146.1 16610 1315 GCA_000645715.1 1422775 1280 Staphylococcus aureus VET1054S VET1054S Firmicutes KK237441.1 3 KAG59708.1 16613 1316 GCA_000645735.1 1422777 1280 Staphylococcus aureus VET1068S VET1068S Firmicutes KK237467.1 3 KAG65359.1 16616 1317 GCA_000645755.1 1422778 1280 Staphylococcus aureus VET1088S VET1088S Firmicutes KK237500.1 3 KAG67528.1 16619 1318 GCA_000645775.1 1422780 1280 Staphylococcus aureus VET1104S VET1104S Firmicutes KK237537.1 3 KAG68215.1 16622 1319 GCA_000645795.1 1422781 1280 Staphylococcus aureus VET1168S VET1168S Firmicutes KK237569.1 3 KAG69693.1 16625 1320 GCA_000645815.1 1422782 1280 Staphylococcus aureus VET1181S VET1181S Firmicutes KK237594.1 3 KAG74736.1 16628 1321 GCA_000645835.1 1422783 1280 Staphylococcus aureus VET1245S VET1245S Firmicutes KK237651.1 3 KAG76839.1 16631 1322 GCA_000645855.1 1422786 1280 Staphylococcus aureus VET1411S VET1411S Firmicutes KK237699.1 3 KAG76108.1 16634 1323 GCA_000645875.1 1422789 1280 Staphylococcus aureus VET1434S VET1434S Firmicutes KK237730.1 3 KAG81176.1 16637 1324 GCA_000645895.1 1422790 1280 Staphylococcus aureus VET1468S VET1468S Firmicutes KK237767.1 3 KAG82430.1 16640 1325 GCA_000645915.1 1422791 1280 Staphylococcus aureus VET1495S VET1495S Firmicutes KK237796.1 3 KAG84392.1 16643 1326 GCA_000645935.1 1422792 1280 Staphylococcus aureus VET1499S VET1499S Firmicutes KK237828.1 3 KAG88853.1 16646 1327 GCA_000645975.1 1422795 1280 Staphylococcus aureus VET1519S VET1519S Firmicutes KK237920.1 3 KAG92816.1 16649 1328 GCA_000645995.1 1422796 1280 Staphylococcus aureus VET1526S VET1526S Firmicutes KK237967.1 3 KAG95315.1 16652 1329 GCA_000646055.1 1422799 1280 Staphylococcus aureus VET1727S VET1727S Firmicutes KK238084.1 3 KAH01283.1 16655 1330 GCA_000646075.1 1422800 1280 Staphylococcus aureus VET1738S VET1738S Firmicutes KK238117.1 3 KAH06869.1 16658 1331 GCA_000646115.1 1422802 1280 Staphylococcus aureus VET1816S VET1816S Firmicutes KK238213.1 3 KAH07514.1 16661 1332 GCA_000646135.1 1422803 1280 Staphylococcus aureus VET1817S VET1817S Firmicutes KK238232.1 3 KAH16053.1 16664 1333 GCA_000646155.1 1422804 1280 Staphylococcus aureus VET1822S VET1822S Firmicutes KK238270.1 3 KAH15238.1 16667 1334 GCA_000646195.1 1422693 1280 Staphylococcus aureus VET1832R VET1832R Firmicutes KK238379.1 3 KAH19617.1 16670 1335 GCA_000646215.1 1422695 1280 Staphylococcus aureus VET1834R VET1834R Firmicutes KK238417.1 3 KAH24557.1 16673 1336 GCA_000646235.1 1422696 1280 Staphylococcus aureus VET1835R VET1835R Firmicutes KK238465.1 3 KAH28158.1 16676 1337 GCA_000646255.1 1422697 1280 Staphylococcus aureus VET1838R VET1838R Firmicutes KK238513.1 3 KAH29215.1 16679 1338 GCA_000646275.1 1422698 1280 Staphylococcus aureus VET1839R VET1839R Firmicutes KK238556.1 3 KAH33224.1 16682 1339 GCA_000646295.1 1422700 1280 Staphylococcus aureus VET1843R VET1843R Firmicutes KK238600.1 3 KAH35673.1 16685 1340 GCA_000646315.1 1422701 1280 Staphylococcus aureus VET1844R VET1844R Firmicutes KK238654.1 3 KAH37682.1 16688 1341 GCA_000646335.1 1422702 1280 Staphylococcus aureus VET1845R VET1845R Firmicutes KK238712.1 3 KAH40130.1 16691 1342 GCA_000646355.1 1422703 1280 Staphylococcus aureus VET1846R VET1846R Firmicutes KK238762.1 3 KAH41312.1 16694 1343 GCA_000646375.1 1422704 1280 Staphylococcus aureus VET1848R VET1848R Firmicutes KK238790.1 3 KAH45888.1 16697 1344 GCA_000646395.1 1422705 1280 Staphylococcus aureus VET1849R VET1849R Firmicutes KK238827.1 3 KAH47354.1 16700 1345 GCA_000646415.1 1422706 1280 Staphylococcus aureus VET1850R VET1850R Firmicutes KK238862.1 3 KAH50036.1 16703 1346 GCA_000646435.1 1422707 1280 Staphylococcus aureus VET1851R VET1851R Firmicutes KK238898.1 3 KAH53958.1 16706 1347 GCA_000646455.1 1422708 1280 Staphylococcus aureus VET1852R VET1852R Firmicutes KK238957.1 3 KAH55298.1 16709 1348 GCA_000646475.1 1422709 1280 Staphylococcus aureus VET1853R VET1853R Firmicutes KK239008.1 3 KAH59147.1 16712 1349 GCA_000646495.1 1422710 1280 Staphylococcus aureus VET1854R VET1854R Firmicutes KK239060.1 3 KAH62179.1 16715 1350 GCA_000646515.1 1422711 1280 Staphylococcus aureus VET1855R VET1855R Firmicutes KK239111.1 3 KAH64795.1 16718 1351 GCA_000646535.1 1422712 1280 Staphylococcus aureus VET1856R VET1856R Firmicutes KK239165.1 3 KAH67715.1 16721 1352 GCA_000646555.1 1422714 1280 Staphylococcus aureus VET1859R VET1859R Firmicutes KK239222.1 3 KAH70236.1 16724 1353 GCA_000646575.1 1422715 1280 Staphylococcus aureus VET1860R VET1860R Firmicutes KK239279.1 3 KAH70953.1 16727 1354 GCA_000646595.1 1422716 1280 Staphylococcus aureus VET1861R VET1861R Firmicutes KK239317.1 3 KAH74942.1 16730 1355 GCA_000646615.1 1422717 1280 Staphylococcus aureus VET1865R VET1865R Firmicutes KK239359.1 3 KAH77221.1 16733 1356 GCA_000646635.1 1422718 1280 Staphylococcus aureus VET1866R VET1866R Firmicutes KK239396.1 3 KAH77148.1 16736 1357 GCA_000646655.1 1422719 1280 Staphylococcus aureus VET1867R VET1867R Firmicutes KK239416.1 3 KAH82036.1 16739 1358 GCA_000646675.1 1422720 1280 Staphylococcus aureus VET1868R VET1868R Firmicutes KK239446.1 3 KAH85417.1 16742 1359 GCA_000646695.1 1422722 1280 Staphylococcus aureus VET1871R VET1871R Firmicutes KK239489.1 3 KAH87605.1 16745 1360 GCA_000646715.1 1422723 1280 Staphylococcus aureus VET1872R VET1872R Firmicutes KK239544.1 3 KAH91094.1 16748 1361 GCA_000646735.1 1422724 1280 Staphylococcus aureus VET1873R VET1873R Firmicutes KK239596.1 3 KAH91685.1 16751 1362 GCA_000646755.1 1422725 1280 Staphylococcus aureus VET1875R VET1875R Firmicutes KK239632.1 3 KAH96192.1 16754 1363 GCA_000646775.1 1422727 1280 Staphylococcus aureus VET1877R VET1877R Firmicutes KK239680.1 3 KAH96017.1 16757 1364 GCA_000646795.1 1422728 1280 Staphylococcus aureus VET1880R VET1880R Firmicutes KK239707.1 3 KAI00778.1 16760 1365 GCA_000646815.1 1422729 1280 Staphylococcus aureus VET1884R VET1884R Firmicutes KK239758.1 3 KAI04126.1 16763 1366 GCA_000646835.1 1422730 1280 Staphylococcus aureus VET1886R VET1886R Firmicutes KK239796.1 3 KAI02997.1 16766 1367 GCA_000646855.1 1422731 1280 Staphylococcus aureus VET1890R VET1890R Firmicutes KK239825.1 3 KAI08748.1 16769 1368 GCA_000646875.1 1422732 1280 Staphylococcus aureus VET1892R VET1892R Firmicutes KK239862.1 3 KAI10610.1 16772 1369 GCA_000646895.1 1422733 1280 Staphylococcus aureus VET1893R VET1893R Firmicutes KK239901.1 3 KAI13050.1 16775 1370 GCA_000646915.1 1422734 1280 Staphylococcus aureus VET1895R VET1895R Firmicutes KK239942.1 3 KAI15462.1 16778 1371 GCA_000646935.1 1422736 1280 Staphylococcus aureus VET1897R VET1897R Firmicutes KK239986.1 3 KAI16289.1 16781 1372 GCA_000646955.1 1422738 1280 Staphylococcus aureus VET1899R VET1899R Firmicutes KK240031.1 3 KAI19041.1 16784 1373 GCA_000646975.1 1422739 1280 Staphylococcus aureus VET1901R VET1901R Firmicutes KK240053.1 3 KAI22534.1 16787 1374 GCA_000646995.1 1422740 1280 Staphylococcus aureus VET1904R VET1904R Firmicutes KK240086.1 3 KAI26859.1 16790 1375 GCA_000647015.1 1422741 1280 Staphylococcus aureus VET1905R VET1905R Firmicutes KK240125.1 3 KAI29886.1 16793 1376 GCA_000647035.1 1422742 1280 Staphylococcus aureus VET1906R VET1906R Firmicutes KK240163.1 3 KAI31280.1 16796 1377 GCA_000647055.1 1422744 1280 Staphylococcus aureus VET1908R VET1908R Firmicutes KK240210.1 3 KAI34386.1 16799 1378 GCA_000647075.1 1422745 1280 Staphylococcus aureus VET1909R VET1909R Firmicutes KK240248.1 3 KAI37686.1 16802 1379 GCA_000647095.1 1422747 1280 Staphylococcus aureus VET1911R VET1911R Firmicutes KK240284.1 3 KAI38933.1 16805 1380 GCA_000647115.1 1422748 1280 Staphylococcus aureus VET1912R VET1912R Firmicutes KK240323.1 3 KAI42594.1 16808 1381 GCA_000647135.1 1422749 1280 Staphylococcus aureus VET1913R VET1913R Firmicutes KK240355.1 3 KAI44808.1 16811 1382 GCA_000647155.1 1422750 1280 Staphylococcus aureus VET1914R VET1914R Firmicutes KK240383.1 3 KAI46182.1 16814 1383 GCA_000647175.1 1422805 1280 Staphylococcus aureus VET1917S VET1917S Firmicutes KK240411.1 3 KAI50314.1 16817 1384 GCA_000647195.1 1422807 1280 Staphylococcus aureus VET1923S VET1923S Firmicutes KK240446.1 3 KAI52601.1 16820 1385 GCA_000647215.1 1422809 1280 Staphylococcus aureus VET1949S VET1949S Firmicutes KK240494.1 3 KAI51895.1 16823 1386 GCA_000647235.1 1422810 1280 Staphylococcus aureus VET1950S VET1950S Firmicutes KK240520.1 3 KAI58512.1 16826 1387 GCA_000647255.1 1422812 1280 Staphylococcus aureus VET1956S VET1956S Firmicutes KK240554.1 3 KAI59070.1 16829 1388 GCA_000647275.1 1422813 1280 Staphylococcus aureus VET1959S VET1959S Firmicutes KK240580.1 3 KAI62095.1 16832 1389 GCA_000647295.1 1413576 1280 Staphylococcus aureus ZTA09/ ZTA09/ Firmicutes KK240619.1 3 KAI65038.1 16835 03576-8HST 03576-8HST 1390 GCA_000647315.1 1413582 1280 Staphylococcus aureus ZTA09/ ZTA09/ Firmicutes KK240655.1 3 KAI67117.1 16838 03734-9HSA 03734-9HSA 1391 GCA_000647335.1 1413584 1280 Staphylococcus aureus ZTA09/ ZTA09/ Firmicutes KK240683.1 3 KAI71118.1 16841 03745-9HSA 03745-9HSA 1392 GCA_000647355.1 1413570 1280 Staphylococcus aureus ZTA10/ ZTA10/ Firmicutes KK240724.1 3 KAI72298.1 16844 00045-9HST 00045-9HST 1393 GCA_000647375.1 1413574 1280 Staphylococcus aureus ZTA10/ ZTA10/ Firmicutes KK240757.1 3 KAI76028.1 16847 00047-8HST 00047-8HST 1394 GCA_000647395.1 1413572 1280 Staphylococcus aureus ZTA10/ ZTA10/ Firmicutes KK240801.1 3 KAI77491.1 16850 00058-8HST 00058-8HST 1395 GCA_000647415.1 1413581 1280 Staphylococcus aureus ZTA10/ ZTA10/ Firmicutes KK240836.1 3 KAI79407.1 16853 02412-8HSA 02412-8HSA 1396 GCA_000647435.1 1413585 1280 Staphylococcus aureus ZTA11/ ZTA11/ Firmicutes KK240874.1 3 KAI83421.1 16856 00189-8HSA 00189-8HSA 1397 GCA_000645135.1 1422677 1280 Staphylococcus aureus VET0465R VET0465R Firmicutes KK328149.1 3 KAF82852.1 16859 1398 GCA_000725445.1 1502784 1502784 Pseudomonas sp. AAC AAC Proteobacteria KL647094.1 3 KES25284.1 16862 1399 GCA_000969845.1 1078087 1078087 Parabacteroides sp. HGS0025 HGS0025 Bacteroidetes KQ033902.1 3 KKB51170.1 16865 1400 GCA_000969845.1 1078087 1078087 Parabacteroides sp. HGS0025 HGS0025 Bacteroidetes KQ033903.1 3 KKB46310.1 16868 1401 GCA_001032775.1 573 573 Klebsiella pneumoniae CHS201 Proteobacteria KQ088951.1 2 KME80490.1 16871 1402 GCA_001034405.1 615 615 Serratia marcescens UCI88 Proteobacteria KQ089789.1 2 KMJ04347.1 16873 1403 GCA_001457055.1 1414648 1414648 Bacillus sp. SGD-V-76 SGD-V-76 Firmicutes KQ758727.1 2 KSU86125.1 16875 1404 GCA_001519055.1 1739114 1739114 Novosphingobium sp. Fuku2-ISO-50 Fuku2-ISO-50 Proteobacteria KQ954285.1 4 KUR80453.1 16877 1405 GCA_001578705.1 1303 1303 Streptococcus oralis DD05 Firmicutes KQ969038.1 2 KXT60079.1 16881 1406 GCA_000956765.1 61645 61645 Enterobacter asburiae 33838 Proteobacteria LAAP01000054.1 3 KJP12011.1 16883 1407 GCA_000987705.1 1639 1639 Listeria monocytogenes DPC6895 Firmicutes LABG01000005.1 2 KK042008.1 16886 1408 GCA_001044655.1 1396 1396 Bacillus cereus INRA A3 Firmicutes LABH01000008.1 2 KMQ31911.1 16888 1409 GCA_001044655.1 1396 1396 Bacillus cereus INRA A3 Firmicutes LABH01000014.1 2 KMQ31454.1 16890 1410 GCA_001044655.1 1396 1396 Bacillus cereus INRA A3 Firmicutes LABH01000016.1 2 KMQ31339.1 16892 1411 GCA_001044855.1 1396 1396 Bacillus cereus RIVM BC 934 Firmicutes LABP01000126.1 2 KMQ07576.1 16894 1412 GCA_000963235.1 29290 29290 Candidatus Magnetobacterium bavaricum Nitrospirae LACI01000945.1 2 KJU85605.1 16896 1413 GCA_000961765.1 1629719 1629719 Clostridiaceae bacterium BRH_c20a Firmicutes LADT01000090.1 3 KJS18752.1 16898 1414 GCA_001010195.1 562 562 Escherichia coli M17-1 Proteobacteria LBDD01000010.1 2 KLD44466.1 16901 1415 GCA_001007525.1 670 670 Vibrio parahaemolyticus MAVP-E Proteobacteria LBHP01000003.1 3 KKZ08483.1 16903 1416 GCA_001005805.1 1590 1590 Lactobacillus plantarum PS128 Firmicutes LBHS01000003.1 2 KKX43503.1 16906 1417 GCA_000981945.1 1409947 1352 Enterococcus faecium MRSN 3418 MRSN 3418 Firmicutes LBIM01000096.1 3 KKJ66889.1 16908 1418 GCA_000996715.1 1618997 1618997 Candidatus Uhrbacteria bacterium Candidatus LCAU01000021.1 3 KKR96940.1 16911 GW2011_GWF2_41_16 Uhrbacteria 1419 GCA_001007555.1 615 615 Serratia marcescens 90-166 Proteobacteria LCWI01000023.1 2 KKZ15776.1 16914 1420 GCA_001008595.1 1396 1396 Bacillus cereus B4080 Firmicutes LCYK01000007.1 2 KLA35044.1 16916 1421 GCA_001008665.1 1396 1396 Bacillus cereus B4158 Firmicutes LCYP01000035.1 2 KLA36292.1 16918 1422 GCA_001011775.1 550 550 Enterobacter cloacae GN02032 Proteobacteria LDCC01000090.1 2 KLF79538.1 16920 1423 GCA_001011075.1 1656220 1656220 Serratia sp. TEL TEL Proteobacteria LDEG01000009.1 2 KLE38479.1 16922 1424 GCA_001043655.1 1396 1396 Bacillus cereus LK9 Firmicutes LDUP01000008.1 2 KMN72583.1 16924 1425 GCA_001043705.1 1628212 1628212 Chromobacterium sp. LK11 LK11 Proteobacteria LDUR01000028.1 4 KMN78963.1 16926 1426 GCA_001276465.1 61645 61645 Enterobacter asburiae C7 Proteobacteria LDVX01000157.1 3 KOQ86134.1 16930 1427 GCA_001276515.1 1661745 1661745 Haemophilus sp. C1 C1 Proteobacteria LDVZ01000018.1 3 KOQ96629.1 16933 1428 GCA_001580555.1 1609637 1609637 Stenotrophomonas sp. DDT-1 DDT-1 Proteobacteria LEKR01000030.1 3 KXU94746.1 16936 1429 GCA_001051865.1 211759 615 Serratia marcescens subsp. marcescens AH0650_Sm1 Proteobacteria LFJS01000014.1 2 KMU49983.1 16939 1430 GCA_001184405.1 1090471 1090471 Candidatus Burkholderia humilis UZHbot5 Proteobacteria LFMX01000038.1 3 KMZ12177.1 16941 1431 GCA_001183595.1 648 648 Aeromonas caviae A23 Proteobacteria LFX001000113.1 4 KMY27377.1 16944 1432 GCA_001270215.1 670 670 Vibrio parahaemolyticus S487-4 Proteobacteria LFZE01000076.1 3 KOF39297.1 16948 1433 GCA_001298135.1 405946 405946 Oceanobacillus caeni HM6 Firmicutes LGTK01000035.1 3 KPH74233.1 16951 1434 GCA_001297125.1 1690247 1690247 Pseudomonas sp. RIT-PI-q RIT-PI-q Proteobacteria LHPC01000026.1 3 KPG99048.1 16954 1435 GCA_001483145.1 172045 172045 Elizabethkingia miricola EM_CHUV Bacteroidetes LIQC01000017.1 4 KUG12361.1 16957 1436 GCA_001317205.1 211759 615 Serratia marcescens subsp. marcescens 945154301 Proteobacteria LJEV01000097.1 4 KPS74519.1 16961 1437 GCA_001317425.1 211759 615 Serratia marcescens subsp. marcescens 945174350 Proteobacteria LJEX01000059.1 4 KPS95936.1 16965 1438 GCA_001295775.1 1523428 1523428 beta proteobacterium AAP99 AAP99 Proteobacteria LJIA01000001.1 2 KPF70566.1 16969 1439 GCA_001411765.1 1255 1255 Pediococcus pentosaceus wikim20 Firmicutes LJIU01000002.1 2 KQB82200.1 16971 1440 GCA_001420605.1 1712029 1712029 Bacillus sp. FJAT-25509 FJAT-25509 Firmicutes LJIZ01000033.1 2 KQL33557.1 16973 1441 GCA_001401315.1 129140 251699 Pseudomonas syringae pv. tagetis ICMP4091 Proteobacteria LJRM01000029.1 4 KPY89108.1 16975 1442 GCA_001243675.1 1507977 1507977 Vibrio sp. J2-4 J2-4 Proteobacteria LK933622.1 3 CDT62308.1 16979 1443 GCA_001262155.1 1507978 1507978 Vibrio sp. J2-26 J2-26 Proteobacteria LK934170.1 3 CDT49142.1 16982 1444 GCA_001467105.1 1208100 317 Pseudomonas syringae ICMP 19498 ICMP 19498 Proteobacteria LKCH01000127.1 2 KTC51736.1 16985 1445 GCA_001466905.1 716914 716914 Pseudomonas sp. ICMP 3272 ICMP 3272 Proteobacteria LKEK01000086.1 2 KTB70323.1 16987 1446 GCA_001466845.1 1198306 317 Pseudomonas syringae ICMP 11293 ICMP 11293 Proteobacteria LKEP01000045.1 2 KTB90078.1 16989 1447 GCA_001467365.1 1198307 317 Pseudomonas syringae ICMP 11292 ICMP 11292 Proteobacteria LKGU01000007.1 2 KTC03050.1 16991 1448 GCA_001429565.1 180957 554 Pectobacterium carotovorum subsp. PcbHPI01 Proteobacteria LKKQ01000034.1 2 KRF62306.1 16993 brasiliense 1449 GCA_001449735.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07184 Proteobacteria LLM001000014.1 2 KSF14311.1 16995 1450 GCA_001450755.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07239 Proteobacteria LLNK01000023.1 5 KSG00435.1 16997 1451 GCA_001452525.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07690 Proteobacteria LLSK01000113.1 5 KSO26594.1 17002 1452 GCA_001453015.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07263 Proteobacteria LLTV01000002.1 5 KSQ24404.1 17007 1453 GCA_001453015.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07263 Proteobacteria LLTV01000014.1 3 KSQ18859.1 17012 1454 GCA_001425705.1 1736430 1736430 Pelomonas sp. Root1217 Root1217 Proteobacteria LMDC01000012.1 2 KQV52821.1 17015 1455 GCA_001425835.1 1736436 1736436 Afipia sp. Root123D2 Rootl23D2 Proteobacteria LMDP01000003.1 2 KQW19009.1 17017 1456 GCA_001421745.1 1735694 1735694 Sphingomonas sp. Leaf230 Leaf230 Proteobacteria LMKW01000009.1 2 KQN02369.1 17019 1457 GCA_001424085.1 1736359 1736359 Rhizobium sp. Leaf386 Leaf386 Proteobacteria LMQF01000024.1 3 KQS95552.1 17021 1458 GCA_001428335.1 1736401 1736401 Arthrobacter sp. Soil762 Soil762 Actinobacteria LMSG01000001.1 2 KRE80987.1 17024 1459 GCA_000953375.1 40480 2095 Mycoplasma capricolum subsp. capripneumoniae F38 Tenericutes LN515398.1 2 CEA11436.1 17026 1460 GCA_000953235.1 40480 2095 Mycoplasma capricolum subsp. capripneumoniae ILRI181 Tenericutes LN515399.1 2 CEA10432.1 17028 1461 GCA_001460855.1 754345 715 Actinobacillus pleuropneumoniae serovar 8 Proteobacteria LN908249.1 3 CUU52508.1 17030 1462 GCA_001463205.1 562 562 Escherichia coli 50639799 Proteobacteria LNHQ01000124.1 2 KSX76371.1 17033 1463 GCA_001547355.1 1352 1352 Enterococcus faecium U-1313438 Firmicutes LNLE01000074.1 3 KWY00933.1 17035 1464 GCA_001545595.1 1352 1352 Enterococcus faecium VRE-1300937 Firmicutes LNLK01000231.1 3 KWY16707.1 17038 1465 GCA_001545605.1 1352 1352 Enterococcus faecium VRE-1400408 Firmicutes LNLP01000005.1 3 KWY36996.1 17041 1466 GCA_001547195.1 1352 1352 Enterococcus faecium VRE-1401878 Firmicutes LNLW01000317.1 2 KWY51064.1 17044 1467 GCA_001545785.1 1352 1352 Enterococcus faecium VRE-1402215 Firmicutes LNLZ01000131.1 2 KWY60248.1 17046 1468 GCA_001545675.1 1352 1352 Enterococcus faecium VRE-1402258 Firmicutes LNMC01000072.1 2 KWY71636.1 17048 1469 GCA_001547115.1 1352 1352 Enterococcus faecium VRE-1402435 Firmicutes LNME01000036.1 3 KWY79778.1 17050 1470 GCA_001547015.1 1352 1352 Enterococcus faecium VRE-1402673 Firmicutes LNMI01000065.1 2 KWY89823.1 17053 1471 GCA_001547025.1 1352 1352 Enterococcus faecium VRE-1402991 Firmicutes LNMJ01000050.1 3 KWY92722.1 17055 1472 GCA_001547045.1 1352 1352 Enterococcus faecium VRE-1403299 Firmicutes LNMK01000076.1 3 KWY92992.1 17058 1473 GCA_001547425.1 1352 1352 Enterococcus faecium VRE-1403540 Firmicutes LNMM01000174.1 3 KWY96007.1 17061 1474 GCA_001547445.1 1352 1352 Enterococcus faecium VRE-1404192 Firmicutes LNM001000097.1 3 KWZ06304.1 17064 1475 GCA_001455955.1 1280 1280 Staphylococcus aureus SA7112 Firmicutes LNTF01000010.1 3 KST54505.1 17067 1476 GCA_001467955.1 45072 45072 Legionella quateirensis ATCC 49507 Proteobacteria LNYR01000034.1 2 KTD46365.1 17070 1477 GCA_001515985.1 1734408 1734408 Sphingomonadales bacterium BRH_c3 Proteobacteria LOET01000087.1 2 KUO54659.1 17072 1478 GCA_001583705.1 1396 1396 Bacillus cereus FSL W8-0003 Firmicutes LOMQ01000001.1 2 KXY14129.1 17074 1479 GCA_001575545.1 562 562 Escherichia coli G213 Proteobacteria LOOH01000120.1 2 KXQ35635.1 17076 1480 GCA_001562375.1 562 562 Escherichia coli 108191 Proteobacteria LORE01000010.1 2 KXG66578.1 17078 1481 GCA_001527325.1 101571 101571 Burkholderia ubonensis MSMB2054 Proteobacteria LOZC01000019.1 4 KVM18168.1 17080 1482 GCA_001527345.1 101571 101571 Burkholderia ubonensis MSMB2055 Proteobacteria LOZD01000004.1 4 KVM22194.1 17084 1483 GCA_001527425.1 101571 101571 Burkholderia ubonensis MSMB2061 Proteobacteria LOZH01000020.1 4 KVM54441.1 17088 1484 GCA_001527955.1 101571 101571 Burkholderia ubonensis MSMB1599WGS Proteobacteria LPAJ01000129.1 2 KVO16515.1 17092 1485 GCA_001529565.1 101571 101571 Burkholderia ubonensis MSMB2022WGS Proteobacteria LPCI01000083.1 2 KVR44248.1 17094 1486 GCA_001528545.1 60552 60552 Burkholderia vietnamiensis AU25340 Proteobacteria LPCP01000011.1 3 KVR99614.1 17096 1487 GCA_001529645.1 60552 60552 Burkholderia vietnamiensis HI3392 Proteobacteria LPCS01000140.1 2 KVS07629.1 17099 1488 GCA_001529225.1 101571 101571 Burkholderia ubonensis MSMB1221WGS Proteobacteria LPEK01000051.1 3 KVU94135.1 17101 1489 GCA_001531435.1 101571 101571 Burkholderia ubonensis MSMB1508WGS Proteobacteria LPFT01000048.1 2 KVX54694.1 17104 1490 GCA_001531105.1 101571 101571 Burkholderia ubonensis MSMB2092WGS Proteobacteria LPHE01000088.1 3 KWA77747.1 17106 1491 GCA_001531535.1 101571 101571 Burkholderia ubonensis MSMB2093WGS Proteobacteria LPHF01000028.1 3 KWB32211.1 17109 1492 GCA_001532205.1 101571 101571 Burkholderia ubonensis MSMB2110WGS Proteobacteria LPHP01000047.1 2 KWB80882.1 17112 1493 GCA_001472685.1 301102 158836 Enterobacter hormaechei subsp. oharae SMART_723 Proteobacteria LPPG01000028.1 3 KTI37619.1 17114 1494 GCA_001472055.1 301102 158836 Enterobacter hormaechei subsp. oharae SMART_286 Proteobacteria LPQM01000012.1 2 KTJ90670.1 17117 1495 GCA_001572345.1 562 562 Escherichia coli CFSAN025116 Proteobacteria LPYQ01000233.1 2 KXM51394.1 17119 1496 GCA_001572325.1 562 562 Escherichia coli CFSAN025117 Proteobacteria LPYR01000272.1 2 KXM54363.1 17121 1497 GCA_001572445.1 562 562 Escherichia coli CFSAN025127 Proteobacteria LPYZ01000244.1 2 KXM99995.1 17123 1498 GCA_001563205.1 1352 1352 Enterococcus faecium 805447/07 Firmicutes LQRS01000049.1 3 KXH57776.1 17125 1499 GCA_001519675.1 562 562 Escherichia coli GN02137 Proteobacteria LQSE01000001.1 2 KUS35848.1 17128 1500 GCA_001521215.1 562 562 Escherichia coli GN02289 Proteobacteria LQSV01000130.1 2 KUT10059.1 17130 1501 GCA_001519835.1 562 562 Escherichia coli GN02290 Proteobacteria LQSW01000102.1 2 KUT23043.1 17132 1502 GCA_001521195.1 562 562 Escherichia coli GN02314 Proteobacteria LQSY01000192.1 2 KUT23265.1 17134 1503 GCA_001519855.1 562 562 Escherichia coli GN02317 Proteobacteria LQSZ01000228.1 2 KUT30718.1 17136 1504 GCA_001520275.1 562 562 Escherichia coli GN02359 Proteobacteria LQTG01000182.1 2 KUT68247.1 17138 1505 GCA_001520235.1 562 562 Escherichia coli GN02514 Proteobacteria LQUF01000113.1 2 KUU91589.1 17140 1506 GCA_001521115.1 562 562 Escherichia coli GN03661 Proteobacteria LQWC01000068.1 2 KUX27115.1 17142 1507 GCA_001518225.1 550 550 Enterobacter cloacae GN04225 Proteobacteria LRC001000001.1 2 KUQ77231.1 17144 1508 GCA_001518605.1 550 550 Enterobacter cloacae GN04369 Proteobacteria LRCT01000127.1 2 KUQ90476.1 17146 1509 GCA_001529365.1 56812 56812 Shewanella frigidimarina Ag06-30 Proteobacteria LRDC01000022.1 2 KVX01473.1 17148 1510 GCA_001524915.1 550 550 Enterobacter cloacae SMART_1260 Proteobacteria LRJW01000001.1 2 KVK22109.1 17150 1511 GCA_001604835.1 644 644 Aeromonas hydrophila AL09-79 Proteobacteria LRRV01000001.1 3 KYQ15613.1 17152 1512 GCA_001604855.1 644 644 Aeromonas hydrophila AL10-121 Proteobacteria LRRW01000002.1 3 KYQ10111.1 17155 1513 GCA_001604895.1 644 644 Aeromonas hydrophila ML09-121 Proteobacteria LRRX01000002.1 3 KYQ13516.1 17158 1514 GCA_001604905.1 644 644 Aeromonas hydrophila ML09-122 Proteobacteria LRRY01000003.1 3 KYQ20474.1 17161 1515 GCA_001548475.1 398518 103855 Bordetella hinzii LMG 13501 LMG 13501 Proteobacteria LRUJ01000004.1 2 KXA74272.1 17164 1516 GCA_000018545.1 394 380 Sinorhizobium fredii NGR234 NGR234 Proteobacteria U00090.2 2 AAB91631.1 17166 1517 GCA_000014225.1 342610 288 Pseudoalteromonas atlantica T6c T6c Proteobacteria CP000388.1 2 ABG41254.1 17168 1518 GCA_000022305.1 535289 721785 Acidovorax ebreus TPSY TPSY Proteobacteria CP001392.1 2 ACM32747.1 17170 1519 GCA_000146185.1 515620 39485 [Eubacterium] eligens ATCC 27750 ATCC 27750 Firmicutes CP001104.1 2 ACR72776.1 17172 1520 GCA_000020605.1 515619 39491 [Eubacterium rectale] ATCC 33656 ATCC 33656 Firmicutes CP001107.1 2 ACR74433.1 17174 1521 GCA_000190515.1 930170 1428 Bacillus thuringiensis serovar YBT-020 Firmicutes CP002509.1 2 ADY24842.1 17176 finitimus YBT-020 1522 GCA_000262385.1 1126211 1390 Bacillus amyloliquefaciens Y2 Y2 Firmicutes CP003332.1 2 AFJ62119.1 17178 1523 GCA_000510285.1 1435044 76759 Pseudomona monteiliis SB3078 SB3078 Proteobacteria CP006978.1 2 AHC83882.1 17180 1524 GCA_000510325.1 1435058 76759 Pseudomonas monteilii SB3101 SB3101 Proteobacteria CP006979.1 2 AHC89253.1 17182 1525 GCA_000568815.1 1150621 66821 Sulfurospirillum multivorans DSM 12446 DSM 12446 Proteobacteria CP007201.1 2 AHJ13792.1 17184 1526 GCA_000746525.1 237609 237609 Pseudomonas alkylphenolia KL28 Proteobacteria CP009048.1 2 AIL63104.1 17186 1527 GCA_000784875.3 1484158 1484158 Pantoea sp. PSNIH1 PSNIH1 Proteobacteria CP009883.1 2 AIX52585.1 17188 1528 GCA_000784965.1 1484157 1484157 Pantoea sp. PSNIH2 PSNIH2 Proteobacteria CP009869.1 2 AIX76375.1 17190 1529 GCA_000827045.1 1570330 1570330 Bacillus sp. BH072 BH072 Firmicutes CP009938.1 2 AJE80313.1 17192 1530 GCA_001022195.1 571 571 Klebsiella oxytoca CAV1374 Proteobacteria CP011635.1 2 AKL33255.1 17194 1531 GCA_000009705.1 103690 103690 Nostoc sp. PCC 7120 Cyanobacteria BA000019.2 2 BAB73898.1 17196 1532 GCA_000009125.1 267608 305 Ralstonia solanacearum GMI1000 GMI1000 Proteobacteria AL646052.1 2 CAD16319.1 17198 1533 GCA_000196815.1 330214 330214 Nitrospira defluvii Nitrospirae FP929003.1 2 CBK39910.1 17200 1534 GCA_000284395.1 1155777 492670 Bacillus methylotrophicus YAU B9601-Y2 YAU B9601-Y2 Firmicutes HE774679.1 2 CCG49955.1 17202 1535 GCA_000438055.1 1262843 1262843 Clostridium sp. CAG:813 Firmicutes FR902242.1 2 CDE97488.1 17204 1536 GCA_000736655.1 1397851 40576 Xenorhabdus bovienii str. feltiae France feltiae France Proteobacteria HG426714.1 2 CDG89550.1 17206 1537 GCA_000736675.1 1397852 40576 Xenorhabdus bovienii str. feltiae Florida feltiae Florida Proteobacteria HG426895.1 2 CDG92165.1 17208 1538 GCA_000756695.1 1034943 1034943 Legionella massiliensis Proteobacteria CCSB01000001.1 2 CDZ76665.1 17210 1539 GCA_000756815.1 1034943 1034943 Legionella massiliensis LegA Proteobacteria CCVW01000001.1 2 CEE12403.1 17212 1540 GCA_001299055.1 1806504 1806504 Achromobacter sp. 2789STDY5608606 2789STDY5608606 Proteobacteria CYTI01000029.1 2 CUJ73685.1 17214 1541 GCA_001538585.1 615 615 Serratia marcescens 2880STDY5682979 Proteobacteria FCLD01000012.1 2 CVH06624.1 17216 1542 GCA_001539465.1 615 615 Serratia marcescens 2880STDY5683000 Proteobacteria FCMT01000016.1 2 CVH45990.1 17218 1543 GCA_900064365.1 446 446 Legionella pneumophila 2532STDY5467650 Proteobacteria FJMH01000005.1 2 CZP78225.1 17220 1544 GCA_900064365.1 446 446 Legionella pneumophila 2532STDY5467650 Proteobacteria FJMH01000026.1 2 CZQ07176.1 17222 1545 GCA_000152545.1 350703 287 Pseudomonas aeruginosa 2192 2192 Proteobacteria CH482384.1 2 EAZ59087.1 17224 1546 GCA_000173435.1 547043 28026 Bifidobacterium pseudocatenulatum DSM 20438 = DSM 20438 Actinobacteria ABXX02000002.1 2 EEG71310.1 17226 JCM 1200 = LMG 10505 1547 GCA_000156535.1 536231 166486 Roseburia intestinalis L1-82 L1-82 Firmicutes GG692752.1 2 EEU99049.1 17228 1548 GCA_000162755.2 658187 168933 Legionella drancourtii LLAP12 LLAP12 Proteobacteria JH413795.1 2 EHL32738.1 17230 1549 GCA_000247895.1 883121 54291 Raoultella ornithinolytica 10-5246 10-5246 Proteobacteria JH603146.1 2 EHT09458.1 17232 1550 GCA_000286415.1 1156919 72556 Achromobacter piechaudii HLE HLE Proteobacteria AUE01000146.1 2 EJO27433.1 17234 1551 GCA_000310225.1 1234382 164400 Thauera phenylacetica B4P B4P Proteobacteria AMXF01000005.1 2 ENO98788.1 17236 1552 GCA_000411195.1 883101 80866 Delftia acidovorans CCUG 274B CCUG 274B Proteobacteria KE150279.1 2 EPD37371.1 17238 1553 GCA_000466385.1 649747 1391 Aneurinibacillus aneurinilyticus ATCC 12856 ATCC 12856 Firmicutes KE952776.1 2 ERI11820.1 17240 1554 GCA_000481145.1 1402528 287 Pseudomonas aeruginosa BWHPSA028 BWHPSA028 Proteobacteria KI518959.1 2 ERV92401.1 17242 1555 GCA_000486525.1 930772 28901 Salmonella enterica subsp. enterica ATCC 43845 Proteobacteria AOXX01000056.1 2 ESF54845.1 17244 serovar Senftenberg str. ATCC 43845 1556 GCA_000492715.1 1329844 550 Enterobacter cloacae BWH 29 BWH 29 Proteobacteria KI535567.1 2 ESM46331.1 17246 1557 GCA_000534175.1 1400151 550 Enterobacter cloacae UCI 36 UCI 36 Proteobacteria KI973125.1 2 EUL65865.1 17248 1558 GCA_000534195.1 1400150 550 Enterobacter cloacae UCI 35 UCI 35 Proteobacteria KI973132.1 2 EUL69873.1 17250 1559 GCA_000307775.2 1218352 316 Pseudomonas stutzeri KOS6 KOS6 Proteobacteria KK020676.1 2 EWC39936.1 17252 1560 GCA_000588875.1 1461752 1461752 Sphingobium sp. Ant17 Ant17 Proteobacteria JEMV01000093.1 2 EXS68251.1 17254 1561 GCA_000715205.1 1178540 1178540 Bacillus sp. DW5-4 DW5-4 Firmicutes JOTP01000043.1 2 KEP24867.1 17256 1562 GCA_000735105.1 421072 421072 Epilithonimonas lactis LMG 24401 Bacteroidetes JPLY01000003.1 2 KFC21766.1 17258 1563 GCA_000740715.1 1423 1423 Bacillus subtilis NKYL29 Firmicutes JPYY01000008.1 2 KFI14244.1 17260 1564 GCA_000741685.1 547043 28026 Bifidobacterium pseudocatenulatum DSM LMG 10505 Actinobacteria JGZF01000003.1 2 KFI74923.1 17262 20438 = JCM 1200 = LMG 10505 1565 GCA_000798515.1 562 562 Escherichia coli CVM N33561PS Proteobacteria JUDN01000122.1 2 KHJ15951.1 17264 1566 GCA_000935285.1 54291 54291 Raoultella ornithinolytica BAL286 Proteobacteria JXXF01000284.1 2 KIZ39818.1 17266 1567 GCA_000937505.2 546 546 Citrobacter freundii MRSN 12115 Proteobacteria JYFZ02000010.1 2 KJB99792.1 17268 1568 GCA_000957025.1 1619245 1619245 Enterobacter sp. 35666 35666 Proteobacteria JZZC01000021.1 2 KJN38560.1 17270 1569 GCA_000964095.1 756892 756892 Acinetobacter indicus KM7 Proteobacteria JZRF01000069.1 2 KJV39508.1 17272 1570 GCA_001038915.1 293386 293386 Bacillus stratosphericus LK23 Firmicutes LDWL01000010.1 2 KML18487.1 17274 1571 GCA_001038775.1 293386 293386 Bacillus stratosphericus LK33 Firmicutes LDWU01000014.1 2 KML62012.1 17276 1572 GCA_001043535.1 293386 293386 Bacillus stratosphericus LK5 Firmicutes LDUH01000019.1 2 KMN31317.1 17278 1573 GCA_001043795.1 1628211 1628211 Bacillus sp. LK10 LK10 Firmicutes LDUQ01000030.1 2 KMN70269.1 17280 1574 GCA_001267695.1 1390 1390 Bacillus amyloliquefaciens KCTC 13012 Firmicutes LHCC01000003.1 2 KOC82292.1 17282 1575 GCA_001280655.1 670 670 Vibrio parahaemolyticus S372-5 Proteobacteria LIRQ01000039.1 2 KOY23385.1 17284 1576 GCA_001423425.1 1736330 1736330 Rhizobium sp. Leaf306 Leaf306 Proteobacteria LMNX01000001.1 2 KQQ38326.1 17286 1577 GCA_001431585.1 40324 40324 Stenotrophomonas maltophilia JCM9942 Proteobacteria LLXS01000084.1 2 KRG37251.1 17288 1578 GCA_001431425.1 83617 83617 Stenotrophomonas nitritireducens DSM 12575 Proteobacteria LDJG01000008.1 2 KRG58645.1 17290 1579 GCA_001449175.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07074 Proteobacteria LLLA01000001.1 2 KSC65530.1 17292 1580 GCA_001452965.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07260 Proteobacteria LLTT01000003.1 2 KSQ38235.1 17294 1581 GCA_001461845.1 1740805 1740805 Bacillus sp. NRRL B-4257 NRRL B-4257 Firmicutes LLZB01000026.1 2 KSV97269.1 17296 1582 GCA_001461825.1 1740803 1740803 Bacillus sp. NRRL B-41580 NRRL B-41580 Firmicutes LLZC01000021.1 2 KSV97837.1 17298 1583 GCA_001469685.1 1390 1390 Bacillus amyloliquefaciens Jxnuwx-1 Firmicutes LMAT01000001.1 2 KTF62015.1 17300 1584 GCA_001507425.1 1742859 1742859 Flavobacteriaceae bacterium CRH CRH Bacteroidetes LMAJ01000029.1 2 KUJ59693.1 17302 1585 GCA_001519075.1 1117702 1117702 Novosphingobium fuchskuhlense FNE08-7 Proteobacteria KQ954244.1 2 KUR72680.1 17304 1586 GCA_001526365.1 1637876 1637876 Burkholderia sp. MSMB1835 MSMB1835 Proteobacteria LOYP01000005.1 2 KVL39772.1 17306 1587 GCA_001593025.1 1671366 1671366 Ruminococcus sp. DSM 100440 DSM 100440 Firmicutes LFIL01000002.1 2 KYG88423.1 17308 1588 GCA_000013305.1 362663 562 Escherichia coli 536 536 Proteobacteria CP000247.1 2 ABG69918.1 17310 1589 GCA_000333215.1 316435 562 Escherichia coli Nissle 1917 Nissle 1917 Proteobacteria CAPM01000056.1 2 CCQ05514.1 17312 1590 GCA_000627095.1 1444274 562 Escherichia coli 1-182-04_S4_C3 1-182-04_S4_C3 Proteobacteria JJLH01000028.1 2 EZJ21710.1 17314 1591 GCA_000627215.1 1444245 562 Escherichia coli 1-182-04_S4_C2 1-182-04_S4_C2 Proteobacteria JJLM01000058.1 2 EZJ42018.1 17316 1592 GCA_000627175.1 1444217 562 Escherichia coli 1-182-04_S4_C1 1-182-04_S4_C1 Proteobacteria JJLP01000024.1 2 EZJ61189.1 17318 1593 GCA_000711455.1 1444214 562 Escherichia coli 8-415-05_S4_C1 8-415-05_S4_C1 Proteobacteria JOMT01000106.1 2 KEJ12238.1 17320 1594 GCA_000711365.1 1444242 562 Escherichia coli 8-415-05_S4_C2 8-415-05_S4_C2 Proteobacteria JOMU01000094.1 2 KEJ13626.1 17322 1595 GCA_000711435.1 1444271 562 Escherichia coli 8-415-05_S4_C3 8-415-05_S4_C3 Proteobacteria JOMV01000018.1 2 KEJ33279.1 17324 1596 GCA_000713455.1 1444189 562 Escherichia coli 8-415-05_S3_C3 8-415-05_S3_C3 Proteobacteria JOSA01000022.1 2 KEN34070.1 17326 1597 GCA_000713495.1 1444131 562 Escherichia coli 8-415-05_S3_C1 8-415-05_S3_C1 Proteobacteria JOSB01000027.1 2 KEN41712.1 17328 1598 GCA_000713585.1 1444159 562 Escherichia coli 8-415-05_S3_C2 8-415-05_S3_C2 Proteobacteria JOSI01000106.1 2 KEN74069.1 17330 1599 GCA_000194475.2 869685 562 Escherichia coli 9.1649 9.1649 Proteobacteria AEZY02000025.1 2 KKA60260.1 17332 1600 GCA_000015425.1 400667 470 Acinetobacter baumannii ATCC 17978 ATCC 17978 Proteobacteria CP000521.1 2 AB013066.2 17334 1601 GCA_000410575.1 1331671 303 Pseudomonas putida H8234 H8234 Proteobacteria CP005976.1 2 AGN81863.1 17336 1602 GCA_000972745.1 339 339 Xanthomonas campestris 17 Proteobacteria CP011256.1 2 AKC78200.1 17338 1603 GCA_001587155.1 305 305 Ralstonia solanacearum IBSBF1503 Proteobacteria CP012943.1 2 AMP74179.1 17340 1604 GCA_000369305.1 1217628 470 Acinetobacter baumannii NIPH 70 NIPH 70 Proteobacteria KB849921.1 2 ENW63934.1 17342 1605 GCA_000967945.1 294 294 Pseudomonas fluorescens C1 Proteobacteria LACE01000014.1 2 KJZ35756.1 17344 1606 GCA_001452415.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07681 Proteobacteria LLSB01000045.1 2 KSM97145.1 17346 1607 GCA_001593425.1 470 470 Acinetobacter baumannii ATCC 17978 Proteobacteria LOIA01000001.1 2 KWX65128.1 17348 1608 GCA_000965905.1 550 550 Enterobacter cloacae CIDEIMsCOL14 Proteobacteria JZKY01000004.1 2 KJX33869.1 17350 1609 GCA_000250075.2 868184 562 Escherichia coli DEC10E DEC10E Proteobacteria AIGT01000041.1 2 EHW83928.1 17352 1610 GCA_000250475.2 868204 562 Escherichia coli DEC14D DEC14D Proteobacteria AIHN01000055.1 2 EHX90142.1 17354 1611 GCA_000408605.1 1182702 562 Escherichia coli KTE103 KTE103 Proteobacteria KE137186.1 2 EOW20700.1 17356 1612 GCA_000458935.1 1281121 562 Escherichia coli HVH 194 HVH 194 Proteobacteria KE700788.1 2 EQT99520.1 17358 (4-2356805) (4-2356805) 1613 GCA_000488795.1 1269010 562 Escherichia coli 910096-2 910096-2 Proteobacteria KI534966.1 2 ESE28058.1 17360 1614 GCA_000687105.1 1444147 562 Escherichia coli 2-005-03_S3_C2 2-005-03_S3_C2 Proteobacteria JMGT01000049.1 2 KDA72414.1 17362 1615 GCA_000711415.1 1444071 562 Escherichia coli 2-316-03_S1_C2 2-316-03_S1_C2 Proteobacteria JOMX01000122.1 2 KEJ24822.1 17364 1616 GCA_000711475.1 1444042 562 Escherichia coli 2-316-03_S1_C1 2-316-03_S1_C1 Proteobacteria JOMW01000161.1 2 KEJ23493.1 17366 1617 GCA_000714105.1 1444239 562 Escherichia coli 5-172-05_S4_C2 5-172-05_S4_C2 Proteobacteria JOQN01000018.1 2 KEL24738.1 17368 1618 GCA_000714145.1 1444211 562 Escherichia coli 5-172-05_S4_C1 5-172-05_S4_C1 Proteobacteria JOQP01000002.1 2 KEL41024.1 17370 1619 GCA_000714225.1 1444269 562 Escherichia coli 5-172-05_S4_C3 5-172-05_S4_C3 Proteobacteria JOQT01000008.1 2 KEL61646.1 17372 1620 GCA_000818965.1 1010817 562 Escherichia coli C691-71 (14b) C691-71 (14b) Proteobacteria JXBV01000029.1 2 KIG27435.1 17374 1621 GCA_001283365.1 562 562 Escherichia coli 503130_aEPEC Proteobacteria CYCS01000027.1 2 CTV70059.1 17376 1622 GCA_000492535.1 1328393 573 Klebsiella pneumoniae UCICRE 7 UCICRE 7 Proteobacteria KI535498.1 2 ESL95857.1 17378 1623 GCA_000688175.1 1438809 573 Klebsiella pneumoniae UCI 64 UCI 64 Proteobacteria JJNI01000059.1 2 EZR09256.1 17380 1624 GCA_001034055.1 573 573 Klebsiella pneumoniae BIDMC89 Proteobacteria KQ089634.1 2 KMI15680.1 17382 1625 GCA_000828775.1 1334564 615 Serratia marcescens SM39 SM39 Proteobacteria AP013063.1 2 BAO34671.1 17384 1626 GCA_001086525.1 630 630 Yersinia enterocolitica ERL08708 Proteobacteria CPZT01000005.1 2 CNG20833.1 17386 1627 GCA_001125285.1 630 630 Yersinia enterocolitica H1527/93 Proteobacteria CQCE01000004.1 2 CNJ07176.1 17388 1628 GCA_001515115.1 666 666 Vibrio cholerae M988 Proteobacteria LQBX01000042.1 2 KUO23349.1 17390 1629 GCA_000965785.1 817 817 Bacteroides fragilis BOB25 Bacteroidetes CP011073.1 2 AKA50670.1 17392 1630 GCA_000307435.1 999417 823 Parabacteroides distasonis CL09T03C24 CL09T03C24 Bacteroidetes JH976487.1 2 EKN28634.1 17394 1631 GCA_000156375.1 411464 901 Desulfovibrio piger ATCC 29098 ATCC 29098 Proteobacteria DS996355.1 2 EEB34165.1 17396 1632 GCA_000013885.1 323097 912 Nitrobacter hamburgensis X14 X14 Proteobacteria CP000319.1 2 ABE61672.1 17398 1633 GCA_000336555.1 883079 1034 Afipia clevelandensis ATCC 49720 ATCC 49720 Proteobacteria KB375281.1 2 EKS39930.1 17400 1634 GCA_000756355.1 1429888 1245 Leuconostoc mesenteroides P45 P45 Firmicutes JRGZ01000002.1 2 KGB50927.1 17402 1635 GCA_000146325.1 862514 1254 Pediococcus acidilactici DSM 20284 DSM 20284 Firmicutes GL397067.1 2 EFL96228.1 17404 1636 GCA_000195025.1 888813 1305 Streptococcus sanguinis SK330 SK330 Firmicutes GL878548.1 2 EGF16080.1 17406 1637 GCA_900059415.1 1307 1307 Streptococcus suis LSS12 Firmicutes FIFP01000007.1 2 CYU22313.1 17408 1638 GCA_900061375.1 1307 1307 Streptococcus suis SS985 Firmicutes FILR01000007.1 2 CYX44081.1 17410 1639 GCA_000339495.1 857115 1309 Streptococcus mutans NLML8 NLML8 Firmicutes AHSV01000017.1 2 EMB57079.1 17412 1640 GCA_000339955.1 857125 1309 Streptococcus mutans N3209 N3209 Firmicutes AHSL01000008.1 2 EMC13032.1 17414 1641 GCA_001558215.1 1309 1309 Streptococcus mutans NG8 Firmicutes CP013237.1 2 AMF85252.1 17416 1642 GCA_000186445.1 888745 1311 Streptococcus agalactiae ATCC 13813 ATCC 13813 Firmicutes GL636070.1 2 EFV96552.1 17418 1643 GCA_000221325.2 876138 1311 Streptococcus agalactiae FSL S3-026 FSLS3-026 Firmicutes AEXT01000002.1 2 EGS28536.1 17420 1644 GCA_000289795.1 1154788 1311 Streptococcus agalactiae FSL S3-501 FSLS3-501 Firmicutes ALQE01000108.1 2 EPT39845.1 17422 1645 GCA_000310365.1 1154776 1311 Streptococcus agalactiae FSL S3-586 FSLS3-586 Firmicutes ANCM01000071.1 2 EPV87467.1 17424 1646 GCA_000310425.1 1154786 1311 Streptococcus agalactiae FSL S3-251 FSLS3-251 Firmicutes ANC001000045.1 2 EPV95019.1 17426 1647 GCA_001017995.1 1311 1311 Streptococcus agalactiae DK-B-USS-155 Firmicutes LBKI01000029.1 2 KLL29854.1 17428 1648 GCA_001018015.1 1311 1311 Streptococcus agalactiae DK-B-USS-204 Firmicutes LBKK01000069.1 2 KLL34442.1 17430 1649 GCA_001018055.1 1311 1311 Streptococcus agalactiae DK-B-USS-215 Firmicutes LBKL01000103.1 2 KLL34969.1 17432 1650 GCA_000975495.1 1450185 1349 Streptococcus uberis C8329 C8329 Firmicutes JATG01000003.1 2 KKF49829.1 17434 1651 GCA_000205205.1 749517 1351 Enterococcus faecalis TX1467 TX1467 Firmicutes GL884006.1 2 EGG58909.1 17436 1652 GCA_000393495.1 1169246 1351 Enterococcus faecalis EnGen0327 A-3-1 Firmicutes KB944973.1 2 EOL13670.1 17438 1653 GCA_000393535.1 1169248 1351 Enterococcus faecalis EnGen0329 Merz192 Firmicutes KB945004.1 2 EOK19568.1 17440 1654 GCA_000395285.1 1158677 1351 Enterococcus faecalis EnGen0289 DS16 Firmicutes KB947440.1 2 EOJ40184.1 17442 1655 GCA_000395305.1 1158678 1351 Enterococcus faecalis EnGen0285 RC73 Firmicutes KB947448.1 2 EOJ44767.1 17444 1656 GCA_000415225.1 1258582 1351 Enterococcus faecalis 20.SD.W.06 20.SD.W.06 Firmicutes KE351746.1 2 EPI04163.1 17446 1657 GCA_000519485.1 1391473 1351 Enterococcus faecalis EnGen0403 EnGen0403 Firmicutes KI912960.1 2 ETT98569.1 17448 1658 GCA_000519505.1 1391474 1351 Enterococcus faecalis EnGen0404 EnGen0404 Firmicutes KI912968.1 2 ETU01533.1 17450 1659 GCA_000519525.1 1391475 1351 Enterococcus faecalis EnGen0405 EnGen0405 Firmicutes KI912974.1 2 ETU06238.1 17452 1660 GCA_000519545.1 1391476 1351 Enterococcus faecalis EnGen0406 EnGen0406 Firmicutes KI912979.1 2 ETU10204.1 17454 1661 GCA_000519585.1 1391478 1351 Enterococcus faecalis EnGen0408 EnGen0408 Firmicutes KI912990.1 2 ETU16615.1 17456 1662 GCA_000519625.1 1391480 1351 Enterococcus faecalis EnGen0410 EnGen0410 Firmicutes KI913001.1 2 ETU21340.1 17458 1663 GCA_000519665.1 1391482 1351 Enterococcus faecalis EnGen0412 EnGen0412 Firmicutes KI913012.1 2 ETU24458.1 17460 1664 GCA_000519725.1 1391485 1351 Enterococcus faecalis EnGen0415 EnGen0415 Firmicutes KI913026.1 2 ETU31995.1 17462 1665 GCA_000519785.1 1391488 1351 Enterococcus faecalis EnGen0418 EnGen0418 Firmicutes KI913052.1 2 ETU40537.1 17464 1666 GCA_000519845.1 1391491 1351 Enterococcus faecalis EnGen0421 EnGen0421 Firmicutes KI913064.1 2 ETU48375.1 17466 1667 GCA_000442845.1 1137134 1358 Lactococcus lactis subsp. lactis A12 A12 Firmicutes CBLU010000009.1 2 CDG04462.1 17468 1668 GCA_001047375.1 1121307 1495 Clostridium cylindrosporum DSM 605 DSM 605 Firmicutes LFVU01000026.1 2 KMT21891.1 17470 1669 GCA_001579785.1 1502 1502 Clostridium perfringens JP838 Firmicutes CP010994.1 2 AMN36763.1 17472 1670 GCA_001372515.1 1505 1505 [Clostridium] sordellii W2922 Firmicutes CELK01000014.1 2 CEQ11379.1 17474 1671 GCA_000493655.1 1349417 1515 Ruminiclostridium thermocellum BC1 Firmicutes CBQ0010000050.1 2 CDG36276.1 17476 1672 GCA_000234155.1 742735 1531 [Clostridium] clostridioforme 2_1_49FAA 2_1_49FAA Firmicutes JH376870.1 2 EHG33946.1 17478 1673 GCA_000724405.2 1443118 1542 Clostridium novyi A str. GD211209 GD211209 Firmicutes JENN01000006.1 2 KEH95234.1 17480 1674 GCA_000469365.1 649758 1580 Lactobacillus brevis ATCC 14869 = DSM 20054 ATCC 14869 Firmicutes KI271248.1 2 ERK44588.1 17482 1675 GCA_001433855.1 649758 1580 Lactobacillus brevis ATCC 14869 = DSM 20054 DSM 20054 Firmicutes AZCP01000001.1 2 KRK21385.1 17484 1676 GCA_000175315.3 562973 1656 Actinomyces viscosus C505 C505 Actinobacteria KI391970.1 2 EGE38623.2 17486 1677 GCA_001602115.1 1748 1748 Propionibacterium acidipropionici ATCC 55737 Actinobacteria CP014352.1 2 AMS06949.1 17488 1678 GCA_000632085.1 13689 13689 Sphingomonas paucimobilis EPA505 Proteobacteria JFYY01000026.1 2 EZP69577.1 17490 1679 GCA_000955645.1 1347790 28131 Prevotella intermedia ZT ZT Bacteroidetes ATMK01000029.1 2 KJJ86348.1 17492 1680 GCA_000011545.1 272560 28450 Burkholderia pseudomallei K96243 K96243 Proteobacteria BX571965.1 2 CAH34734.1 17494 1681 GCA_000015925.1 357348 28450 Burkholderia pseudomallei 1106a 1106a Proteobacteria CP000572.1 2 ABN90934.1 17496 1682 GCA_000152345.1 331978 28450 Burkholderia pseudomallei Pasteur 52237 Pasteur 52237 Proteobacteria CH899746.1 2 ED090949.1 17498 1683 GCA_000193455.1 320371 28450 Burkholderia pseudomallei 1710a 1710a Proteobacteria CM000832.1 2 EET07297.1 17500 1684 GCA_000193475.1 357347 28450 Burkholderia pseudomallei 1106b 1106b Proteobacteria CM000774.1 2 EES25793.1 17502 1685 GCA_000259755.1 1086032 28450 Burkholderia pseudomallei 1258a 1258a Proteobacteria AHJB01000130.1 2 EIF62858.1 17504 1686 GCA_000259775.1 1086033 28450 Burkholderia pseudomallei 1258b 1258b Proteobacteria AHJC01000129.1 2 EIF64459.1 17506 1687 GCA_000259795.1 1086036 28450 Burkholderia pseudomallei 354e 354e Proteobacteria AHJD01000107.1 2 EIF75597.1 17508 1688 GCA_000259815.1 1086034 28450 Burkholderia pseudomallei 354a 354a Proteobacteria AGVS01000297.1 2 EIF80279.1 17510 1689 GCA_000294635.1 1229785 28450 Burkholderia pseudomallei BPC006 BPC006 Proteobacteria CP003781.1 2 AFR14682.1 17512 1690 GCA_000756125.1 28450 28450 Burkholderia pseudomallei Mahidol-1106a Proteobacteria CP008781.1 2 AIO13383.1 17514 1691 GCA_000756145.1 28450 28450 Burkholderia pseudomallei 1106a Proteobacteria CP008758.1 2 AI091702.1 17516 1692 GCA_000757035.2 331978 28450 Burkholderia pseudomallei Pasteur 52237 Pasteur 52237 Proteobacteria CP009899.1 2 AJX61451.1 17518 1693 GCA_000757185.1 28450 28450 Burkholderia pseudomallei BGS Proteobacteria KN150946.1 2 KGC78979.1 17520 1694 GCA_000757255.1 28450 28450 Burkholderia pseudomallei BGJ Proteobacteria KN150955.1 2 KGD17915.1 17522 1695 GCA_000763555.1 28450 28450 Burkholderia pseudomallei BGK Proteobacteria CP008916.1 2 AIS47055.1 17524 1696 GCA_000770455.1 1439854 28450 Burkholderia pseudomallei B03 B03 Proteobacteria CP009151.1 2 AIV91806.1 17526 1697 GCA_000770535.1 1439855 28450 Burkholderia pseudomallei A79A A79A Proteobacteria CP009165.1 2 AIV95750.1 17528 1698 GCA_000775085.1 1439860 28450 Burkholderia pseudomallei TSV28 TSV28 Proteobacteria JQHU01000150.1 2 KGX68805.1 17530 1699 GCA_000775675.1 1439856 28450 Burkholderia pseudomallei A79C A79C Proteobacteria JQHQ01000114.1 2 KGY01694.1 17532 1700 GCA_000775685.1 1439857 28450 Burkholderia pseudomallei A79D A79D Proteobacteria JQHR01000047.1 2 KGY04116.1 17534 1701 GCA_000932075.1 28450 28450 Burkholderia pseudomallei QCMRI_BP07 Proteobacteria JYBG01000039.1 2 KIX42366.1 17536 1702 GCA_000932145.1 28450 28450 Burkholderia pseudomallei QCMRI_BP32 Proteobacteria JYBK01000004.1 2 KIX63305.1 17538 1703 GCA_000953095.1 28450 28450 Burkholderia pseudomallei 3921 Proteobacteria LK936442.1 2 CDU27413.1 17540 1704 GCA_000954175.1 28450 28450 Burkholderia pseudomallei vgh07 Proteobacteria CP010973.1 2 AJW52247.1 17542 1705 GCA_000959285.1 272560 28450 Burkholderia pseudomallei K96243 K96243 Proteobacteria CP009538.1 2 AJX28157.1 17544 1706 GCA_001182265.1 28450 28450 Burkholderia pseudomallei EY6 Proteobacteria CWJD01000032.1 2 CRY48213.1 17546 1707 GCA_001191815.1 28450 28450 Burkholderia pseudomallei C32 Proteobacteria CSQC01000014.1 2 CPN90195.1 17548 1708 GCA_001192415.1 28450 28450 Burkholderia pseudomallei C36 Proteobacteria CSQF01000015.1 2 CP007168.1 17550 1709 GCA_001192815.1 28450 28450 Burkholderia pseudomallei C58 Proteobacteria CSOW01000015.1 2 CPM40570.1 17552 1710 GCA_001193035.1 28450 28450 Burkholderia pseudomallei C30 Proteobacteria CSSB01000014.1 2 CPQ62517.1 17554 1711 GCA_001193615.1 28450 28450 Burkholderia pseudomallei C11 Proteobacteria CSRL01000034.1 2 CPQ18530.1 17556 1712 GCA_001193655.1 28450 28450 Burkholderia pseudomallei C54 Proteobacteria CSLU01000014.1 2 CPI70802.1 17558 1713 GCA_001194765.1 28450 28450 Burkholderia pseudomallei C52 Proteobacteria CSN001000016.1 2 CPK88012.1 17560 1714 GCA_001196125.1 28450 28450 Burkholderia pseudomallei C31 Proteobacteria CSM001000014.1 2 CPJ40971.1 17562 1715 GCA_001196775.1 28450 28450 Burkholderia pseudomallei C50 Proteobacteria CSMS01000016.1 2 CPJ76825.1 17564 1716 GCA_001197015.1 28450 28450 Burkholderia pseudomallei C17 Proteobacteria CSMH01000029.1 2 CPJ85555.1 17566 1717 GCA_001197235.1 28450 28450 Burkholderia pseudomallei 6./96 Proteobacteria CSLAO1000038.1 2 CPH77136.1 17568 1718 GCA_001197775.1 28450 28450 Burkholderia pseudomallei C3 Proteobacteria CSME01000015.1 2 CPJ25324.1 17570 1719 GCA_001197795.1 28450 28450 Burkholderia pseudomallei C44 Proteobacteria CSSV01000015.1 2 CPR02281.1 17572 1720 GCA_001199195.1 28450 28450 Burkholderia pseudomallei C51 Proteobacteria CSMB01000033.1 2 CPJ69674.1 17574 1721 GCA_001199695.1 28450 28450 Burkholderia pseudomallei C68 Proteobacteria CSNM01000014.1 2 CPK70853.1 17576 1722 GCA_001199815.1 28450 28450 Burkholderia pseudomallei C28 Proteobacteria CSRV01000015.1 2 CPQ22985.1 17578 1723 GCA_001200615.1 28450 28450 Burkholderia pseudomallei C1 Proteobacteria CSPL01000013.1 2 CPN03544.1 17580 1724 GCA_001200935.1 28450 28450 Burkholderia pseudomallei 504/96 Proteobacteria CSLC01000034.1 2 CPH78827.1 17582 1725 GCA_001202415.1 28450 28450 Burkholderia pseudomallei C48 Proteobacteria CSLS01000014.1 2 CPI57651.1 17584 1726 GCA_001204515.1 28450 28450 Burkholderia pseudomallei C69 Proteobacteria CSPX01000005.1 2 CPN26697.1 17586 1727 GCA_001205935.1 28450 28450 Burkholderia pseudomallei C22 Proteobacteria CSNB01000034.1 2 CPK20311.1 17588 1728 GCA_001206495.1 28450 28450 Burkholderia pseudomallei C70 Proteobacteria CSOV01000015.1 2 CPM33011.1 17590 1729 GCA_001207675.1 28450 28450 Burkholderia pseudomallei C66 Proteobacteria CSQA01000015.1 2 CPN87629.1 17592 1730 GCA_001208545.1 28450 28450 Burkholderia pseudomallei C13 Proteobacteria CSSE01000014.1 2 CPQ68104.1 17594 1731 GCA_001209405.1 28450 28450 Burkholderia pseudomallei C15 Proteobacteria CSPA01000014.1 2 CPM53772.1 17596 1732 GCA_001209505.1 28450 28450 Burkholderia pseudomallei C21 Proteobacteria CSOU01000014.1 2 CPM10513.1 17598 1733 GCA_001210705.1 28450 28450 Burkholderia pseudomallei C16 Proteobacteria CSQP01000036.1 2 CPP09133.1 17600 1734 GCA_001210965.1 28450 28450 Burkholderia pseudomallei C42 Proteobacteria CSNW01000016.1 2 CPL40888.1 17602 1735 GCA_001211345.1 28450 28450 Burkholderia pseudomallei C62 Proteobacteria CSPM01000015.1 2 CPN14436.1 17604 1736 GCA_001211405.1 28450 28450 Burkholderia pseudomallei C26 Proteobacteria CSNQ01000016.1 2 CPK90390.1 17606 1737 GCA_001211505.1 28450 28450 Burkholderia pseudomallei C53 Proteobacteria CSRJ01000015.1 2 CPP68451.1 17608 1738 GCA_001211565.1 28450 28450 Burkholderia pseudomallei C10 Proteobacteria CSRH01000038.1 2 CPP97990.1 17610 1739 GCA_001211865.1 28450 28450 Burkholderia pseudomallei C29 Proteobacteria CSQB01000014.1 2 CPN87378.1 17612 1740 GCA_001212025.1 28450 28450 Burkholderia pseudomallei C2 Proteobacteria CSSW01000015.1 2 CPR00121.1 17614 1741 GCA_001212065.1 28450 28450 Burkholderia pseudomallei P6 Proteobacteria CSLI01000012.1 2 CPH39453.1 17616 1742 GCA_001212185.1 28450 28450 Burkholderia pseudomallei 21/96 Proteobacteria CSKV01000012.1 2 CPG82753.1 17618 1743 GCA_001212325.1 28450 28450 Burkholderia pseudomallei C25 Proteobacteria CSOX01000015.1 2 CPM46611.1 17620 1744 GCA_001212405.1 28450 28450 Burkholderia pseudomallei EY1 Proteobacteria CSKM01000009.1 2 CPG38360.1 17622 1745 GCA_001212465.1 28450 28450 Burkholderia pseudomallei 2/96 Proteobacteria CSKX01000014.1 2 CPH00885.1 17624 1746 GCA_001212705.1 28450 28450 Burkholderia pseudomallei EY3 Proteobacteria CSKP01000034.1 2 CPH42028.1 17626 1747 GCA_001277875.1 28450 28450 Burkholderia pseudomallei vgh16R Proteobacteria CP012515.1 2 ALB92817.1 17628 1748 GCA_001277895.1 28450 28450 Burkholderia pseudomallei vgh16W Proteobacteria CP012517.1 2 ALB98879.1 17630 1749 GCA_001277975.1 28450 28450 Burkholderia pseudomallei 982 Proteobacteria CP012576.1 2 ALC58207.1 17632 1750 GCA_001320215.1 28450 28450 Burkholderia pseudomallei 6 Proteobacteria CGEV01000013.1 2 CFT55154.1 17634 1751 GCA_001320825.1 28450 28450 Burkholderia pseudomallei C37 Proteobacteria CIHR01000013.1 2 CPQ86668.1 17636 1752 GCA_001320865.1 28450 28450 Burkholderia pseudomallei C61 Proteobacteria CFZT01000014.1 2 CFP14331.1 17638 1753 GCA_001320905.1 28450 28450 Burkholderia pseudomallei C6 Proteobacteria CGFU01000014.1 2 CFU67050.1 17640 1754 GCA_001320945.1 28450 28450 Burkholderia pseudomallei C4 Proteobacteria CFXK01000014.1 2 CFM98899.1 17642 1755 GCA_001320985.1 28450 28450 Burkholderia pseudomallei C9 Proteobacteria CFXG01000012.1 2 CFM81858.1 17644 1756 GCA_001321015.1 28450 28450 Burkholderia pseudomallei C7 Proteobacteria CIJT01000014.1 2 CPM85720.1 17646 1757 GCA_001321045.1 28450 28450 Burkholderia pseudomallei C8 Proteobacteria CIGV01000033.1 2 CPL97294.1 17648 1758 GCA_001321065.1 28450 28450 Burkholderia pseudomallei C12 Proteobacteria CFZL01000037.1 2 CFO92224.1 17650 1759 GCA_001321085.1 28450 28450 Burkholderia pseudomallei C46 Proteobacteria CFXP01000015.1 2 CFN19260.1 17652 1760 GCA_001321105.1 28450 28450 Burkholderia pseudomallei C45 Proteobacteria CIGX01000033.1 2 CPL11643.1 17654 1761 GCA_001321125.1 28450 28450 Burkholderia pseudomallei C43 Proteobacteria CIBE01000017.1 2 CPN25051.1 17656 1762 GCA_001321145.1 28450 28450 Burkholderia pseudomallei C47 Proteobacteria CIKM01000030.1 2 CPO46736.1 17658 1763 GCA_001321165.1 28450 28450 Burkholderia pseudomallei C27 Proteobacteria CFWL01000014.1 2 CFL99481.1 17660 1764 GCA_001321185.1 28450 28450 Burkholderia pseudomallei C24 Proteobacteria CIJQ01000014.1 2 CP089903.1 17662 1765 GCA_001321205.1 28450 28450 Burkholderia pseudomallei C23 Proteobacteria CGHT01000014.1 2 CFW49159.1 17664 1766 GCA_001321225.1 28450 28450 Burkholderia pseudomallei C64 Proteobacteria CFWQ01000015.1 2 CFM22755.1 17666 1767 GCA_001321245.1 28450 28450 Burkholderia pseudomallei C63 Proteobacteria CIBB01000014.1 2 CPK84415.1 17668 1768 GCA_001321265.1 28450 28450 Burkholderia pseudomallei C65 Proteobacteria CFZI01000014.1 2 CFO79487.1 17670 1769 GCA_001321285.1 28450 28450 Burkholderia pseudomallei C67 Proteobacteria CGFW01000014.1 2 CFU75863.1 17672 1770 GCA_001321305.1 28450 28450 Burkholderia pseudomallei C14 Proteobacteria CGFJ01000015.1 2 CFU18823.1 17674 1771 GCA_001321325.1 28450 28450 Burkholderia pseudomallei C18 Proteobacteria CFXB01000030.1 2 CFM67594.1 17676 1772 GCA_001321345.1 28450 28450 Burkholderia pseudomallei C20 Proteobacteria CGIB01000015.1 2 CFW79173.1 17678 1773 GCA_001321365.1 28450 28450 Burkholderia pseudomallei C19 Proteobacteria CFZB01000015.1 2 CFO54185.1 17680 1774 GCA_001321385.1 28450 28450 Burkholderia pseudomallei C49 Proteobacteria CFXU01000016.1 2 CFN47247.1 17682 1775 GCA_001321405.1 28450 28450 Burkholderia pseudomallei C57 Proteobacteria CGFL01000014.1 2 CFU32908.1 17684 1776 GCA_001321425.1 28450 28450 Burkholderia pseudomallei C59 Proteobacteria CFZV01000014.1 2 CFP26209.1 17686 1777 GCA_001321445.1 28450 28450 Burkholderia pseudomallei C60 Proteobacteria CIBL01000035.1 2 CPP85431.1 17688 1778 GCA_001321465.1 28450 28450 Burkholderia pseudomallei C41 Proteobacteria CFWT01000016.1 2 CFM37245.1 17690 1779 GCA_001321485.1 28450 28450 Burkholderia pseudomallei C56 Proteobacteria CIBF01000030.1 2 CPQ63811.1 17692 1780 GCA_001321505.1 28450 28450 Burkholderia pseudomallei C39 Proteobacteria CFYP01000014.1 2 CF010819.1 17694 1781 GCA_001321525.1 28450 28450 Burkholderia pseudomallei C40 Proteobacteria CIGS01000014.1 2 CPL75788.1 17696 1782 GCA_001321545.1 28450 28450 Burkholderia pseudomallei C38 Proteobacteria CFXD01000034.1 2 CFM72557.1 17698 1783 GCA_001321565.1 28450 28450 Burkholderia pseudomallei C35 Proteobacteria CIJK01000015.1 2 CPK97832.1 17700 1784 GCA_001321585.1 28450 28450 Burkholderia pseudomallei C33 Proteobacteria CHKY01000034.1 2 CPN81614.1 17702 1785 GCA_001321605.1 28450 28450 Burkholderia pseudomallei C34 Proteobacteria CGHK01000004.1 2 CFW09147.1 17704 1786 GCA_001321625.1 28450 28450 Burkholderia pseudomallei C55 Proteobacteria CGFR01000015.1 2 CFU54707.1 17706 1787 GCA_001326895.1 28450 28450 Burkholderia pseudomallei 2746b Proteobacteria CFVL01000010.1 2 CFK50101.1 17708 1788 GCA_001326935.1 28450 28450 Burkholderia pseudomallei EY4 Proteobacteria CHFD01000017.1 2 CPG83473.1 17710 1789 GCA_001327035.1 28450 28450 Burkholderia pseudomallei DB30729/00 Proteobacteria CGEZ01000012.1 2 CFT72113.1 17712 1790 GCA_001327075.1 28450 28450 Burkholderia pseudomallei 497/96 Proteobacteria CFVV01000013.1 2 CFL13092.1 17714 1791 GCA_001327155.1 28450 28450 Burkholderia pseudomallei 35/96 Proteobacteria CFWJ01000011.1 2 CFL88486.1 17716 1792 GCA_001327395.1 28450 28450 Burkholderia pseudomallei 708a Proteobacteria CIAY01000003.1 2 CPE71818.1 17718 1793 GCA_001327415.1 28450 28450 Burkholderia pseudomallei BRI Proteobacteria CGFB01000038.1 2 CFT96170.1 17720 1794 GCA_001327435.1 28450 28450 Burkholderia pseudomallei E8 Proteobacteria CGFC01000007.1 2 CFT85447.1 17722 1795 GCA_001327495.1 28450 28450 Burkholderia pseudomallei TRF661 Proteobacteria CFWE01000007.1 2 CFL56334.1 17724 1796 GCA_001327555.1 28450 28450 Burkholderia pseudomallei E0387 Proteobacteria CHFI01000014.1 2 CPI51234.1 17726 1797 GCA_000486815.1 997333 28901 Salmonella enterica subsp. 0250 Proteobacteria AOYM01000072.1 2 ESG20657.1 17728 enterica serovar Oranienburg str. 0250 1798 GCA_000940895.1 1454592 28901 Salmonella enterica subsp. CDC 06-0532 Proteobacteria CP007211.1 2 AJQ64506.1 17730 enterica serovar Anatum str. CDC 06-0532 1799 GCA_000963535.1 1454590 28901 Salmonella enterica subsp. USDA-ARS- Proteobacteria CP007483.1 2 AJZ80320.1 17732 enterica serovar Anatum str. USMARC-1175 USDA-ARS-USMARC-1175 1800 GCA_001217125.1 36809 36809 Mycobacterium abscessus PAP090 Actinobacteria CSWS01000008.1 2 CPW02861.1 17734 1801 GCA_000332975.1 1220583 36820 Gordonia aichiensis NBRC 108223 NBRC 108223 Actinobacteria BANR01000007.1 2 GAC48719.1 17736 1802 GCA_000014925.1 290340 43663 Paenarthrobacter aurescens TC1 TC1; ATCC Actinobacteria CP000474.1 2 ABM09581.1 17738 BAA-1386 1803 GCA_000473915.1 1219013 43767 Rhodococcus equi NBRC 101255 = C 7 C 7 Actinobacteria APJC01000016.1 2 ERN46351.1 17740 1804 GCA_001467645.1 45065 45065 Legionella geestiana ATCC 49504 Proteobacteria LNYC01000024.1 2 KTD01946.1 17742 1805 GCA_000967915.1 61635 61635 Acholeplasma brassicae O502 Tenericutes FO681348.1 2 CCV65562.1 17744 1806 GCA_001038235.1 61647 61647 Pluralibacter gergoviae DS82E24 Proteobacteria LDZG01000031.1 2 KMK02865.1 17746 1807 GCA_000568815.1 1150621 66821 Sulfurospirillum multivorans DSM 12446 DSM 12446 Proteobacteria CP007201.1 2 AHJ12534.1 17748 1808 GCA_001509475.1 68262 68262 Streptomyces regalis NRRL 3151 Actinobacteria LLZG01000047.1 2 KUL42778.1 17750 1809 GCA_000257785.1 1095730 76860 Streptococcus constellatus subsp. SK53 Firmicutes AICQ01000008.1 2 EID21980.1 17752 constellatus SK53 1810 GCA_000474075.1 1095730 76860 Streptococcus constellatus subsp. SK53 Firmicutes BASU01000001.1 2 GAD37767.1 17754 constellatus SK53 1811 GCA_001434855.1 1423788 83526 Lactobacillus paralimentarius DSM 19674 DSM 19674 Firmicutes AZDY01000037.1 2 KRK83038.1 17756 1812 GCA_000186185.1 562971 85698 Achromobacter xylosoxidans C54 C54 Proteobacteria GL636034.1 2 EFV85442.1 17758 1813 GCA_000364225.1 1235802 97253 Eubacterium plexicaudatum ASF492 ASF492 Firmicutes KB822499.1 2 EMZ26178.1 17760 1814 GCA_000317595.1 698759 103232 Streptomyces ipomoeae 91-03 91-03 Actinobacteria AEJC01000486.1 2 EKX62822.1 17762 1815 GCA_000017145.1 366394 110321 Sinorhizobium medicae WSM419 WSM419 Proteobacteria CP000740.1 2 ABR64200.1 17764 1816 GCA_001188555.1 121719 121719 Pannonibacter phragmitetus CGMCC9175 Proteobacteria LGSQ01000007.1 2 KND18807.1 17766 1817 GCA_000092505.1 762051 136609 Leuconostoc kimchii IMSNU 11154 IMSNU 11154 Firmicutes CP001758.1 2 ADG41466.1 17768 1818 GCA_000156215.1 445975 147206 Collinsella stercoris DSM 13279 DSM 13279 Actinobacteria DS995474.1 2 EEA91362.1 17770 1819 GCA_000235505.1 742737 154046 Hungatella hathewayi WAL-18680 WAL-18680 Firmicutes JH379027.1 2 EHI61152.1 17772 1820 GCA_000178255.1 702450 154288 Turicibacter sanguinis PC909 PC909 Firmicutes ADMN01000123.1 2 EFF62517.1 17774 1821 GCA_001465255.1 162209 162209 Paenibacillus naphthalenovorans 32O-Y Firmicutes CP013652.1 2 ALS25374.1 17776 1822 GCA_000767835.1 176090 176090 Streptococcus sinensis HKU4 Firmicutes JPEN01000062.1 2 KGM37271.1 17778 1823 GCA_000568075.1 314330 314330 Enterobacter sp. DC1 DC1 Proteobacteria AZUA01000002.1 2 EWG70341.1 17780 1824 GCA_001050135.1 320787 320787 Cyclobacterium amurskyense KCTC 12363 Bacteroidetes CP012040.1 2 AKP49793.1 17782 1825 GCA_000964065.1 332411 332411 Aquitalea magnusonii SM6 Proteobacteria JZRC01000020.1 2 KJV29339.1 17784 1826 GCA_000264295.1 1163407 347483 Rhodanobacter spathiphylli B39 B39 Proteobacteria AJXT01000055.1 2 EIL89963.1 17786 1827 GCA_000737685.1 362418 362418 Flavobacterium reichenbachii LMG 25512 Bacteroidetes JPRL01000001.1 2 KFF05553.1 17788 1828 GCA_001405815.1 388408 388408 Labrenzia alexandrii CECT 5112 Proteobacteria CXWD01000013.1 2 CTQ72905.1 17790 1829 GCA_001444505.1 554343 554343 Psychrobacter piscatorii LQ58 Proteobacteria LNDJ01000085.1 2 KRU21991.1 17792 1830 GCA_000956505.1 582680 582680 Microbacterium azadirachtae ARN176 Actinobacteria JYIX01000037.1 2 KJL32259.1 17794 1831 GCA_000245715.1 1050222 1050222 Paenibacillus sp. Aloe-11 Aloe-11 Firmicutes JH601082.1 2 EHS54840.1 17796 1832 GCA_000282055.1 1144313 1144313 Flavobacterium sp. CF136 CF136 Bacteroidetes AKJZ01000027.1 2 EJL63880.1 17798 1833 GCA_000282675.1 1144320 1144320 Pantoea sp. GM01 GM01 Proteobacteria AKIU01000064.1 2 EJL84705.1 17800 1834 GCA_000260835.1 946077 1165090 Imtechella halotolerans K1 K1 Bacteroidetes AJJU01000017.1 2 EID73851.1 17802 1835 GCA_001532035.1 1207504 1207504 Burkholderia pseudomultivorans MSMB368WGS Proteobacteria LPJR01000094.1 2 KWF17574.1 17804 1836 GCA_000466565.1 1226324 1226324 Blautia sp. KLE 1732 KLE 1732 Firmicutes KE993386.1 2 ERI96811.1 17806 1837 GCA_000403295.2 1235792 1235792 Lachnospiraceae bacterium M18-1 M18-1 Firmicutes KE159609.1 2 EOS38323.1 17808 1838 GCA_000403335.2 1235793 1235793 Lachnospiraceae bacterium COE1 COE1 Firmicutes KE159632.1 2 EOS41468.1 17810 1839 GCA_000438215.1 1263066 1263066 Clostridium clostridioforme CAG:511 Firmicutes FR903693.1 2 CDF26098.1 17812 1840 GCA_000768755.1 1537504 1537504 Porphyromonas sp. COT-108 OH1349 COT-108 Bacteroidetes JRAH01000034.1 2 KGN67552.1 17814 OH1349 1841 GCA_001508375.1 1635262 1635262 Desulfotomaculum sp. 46_296 Firmicutes LGFZ01000024.1 2 KUK53685.1 17816 1842 GCA_000988325.1 1643451 1643451 Sphingobacterium sp. Ag1 Ag1 Bacteroidetes LBGU01000044.1 2 KKO89442.1 17818 1843 GCA_001187905.1 1681195 1681195 Pantoea sp. RIT-PI-b RIT-PI-b Proteobacteria LGIS01000026.1 2 KNC08320.1 17820 1844 GCA_001422575.1 1736224 1736224 Serratia sp. Leaf51 Leaf51 Proteobacteria LMU01000057.1 2 KQN48064.1 17822 1845 GCA_000979175.1 2209 2209 Methanosarcina mazei 1.H.A.1A.3 Euryarchaeota JJQH01000125.1 2 KKH38512.1 17824 1846 GCA_000979195.1 2209 2209 Methanosarcina mazei 1.H.A.2.3 Euryarchaeota JJQM01000126.1 2 KKH53104.1 17826 1847 GCA_000979205.1 2209 2209 Methanosarcina mazei 1.H.A.2.7 Euryarchaeota JJQ001000047.1 2 KKH68857.1 17828 1848 GCA_000979255.1 2209 2209 Methanosarcina mazei 1.H.M.1A.2 Euryarchaeota JJQS01000129.1 2 KKH71868.1 17830 1849 GCA_000979275.1 2209 2209 Methanosarcina mazei 1.H.M.2.2 Euryarchaeota JJQV01000133.1 2 KKH80640.1 17832 1850 GCA_000979335.1 2209 2209 Methanosarcina mazei 2.F.A.2.3 Euryarchaeota JJOR01000174.1 2 KKF98496.1 17834 1851 GCA_000979925.1 2209 2209 Methanosarcina mazei 1.H.A.1A.6 Euryarchaeota JJQJ01000061.1 2 KKH51286.1 17836 1852 GCA_000980005.1 2209 2209 Methanosarcina mazei 1.H.A.2.8 Euryarchaeota JJQP01000201.1 2 KKH64073.1 17838 1853 GCA_000980055.1 2209 2209 Methanosarcina mazei 1.H.M.1A.1 Euryarchaeota JJQR01000061.1 2 KKH76320.1 17840 1854 GCA_000980075.1 2209 2209 Methanosarcina mazei 1.H.M.2.3 Euryarchaeota JJQW01000059.1 2 KKH88481.1 17842 1855 GCA_000980085.1 2209 2209 Methanosarcina mazei 1.H.M.1A.3 Euryarchaeota JJQT01000187.1 2 KKH75119.1 17844 1856 GCA_000980105.1 2209 2209 Methanosarcina mazei 1.H.M.2.4 Euryarchaeota JJQX01000190.1 2 KKH91069.1 17846 1857 GCA_000980135.1 2209 2209 Methanosarcina mazei 1.H.T.2.1 Euryarchaeota JJQZ01000005.1 2 KKI00020.1 17848 1858 GCA_000980155.1 2209 2209 Methanosarcina mazei 1.H.T.2.3 Euryarchaeota JJRA01000002.1 2 KKI06936.1 17850 1859 GCA_000980175.1 2209 2209 Methanosarcina mazei 1.H.T.2.5 Euryarchaeota JJRB01000041.1 2 KKI04817.1 17852 1860 GCA_000465655.1 1390372 1390 Bacillus amyloliquefaciens EGD-AQ14 EGD-AQ14 Firmicutes AVQH01000001.1 2 ERH59124.1 17854 1861 GCA_000092605.1 75379 926 Thiomonas intermedia K12 K12 Proteobacteria CP002021.1 3 ADG31357.1 17856 1862 GCA_001263815.1 837 837 Porphyromonas gingivalis A7436 Bacteroidetes CP011995.1 3 AKV63928.1 17859 1863 GCA_000436435.1 1263050 1263050 Bacteroides ovatus CAG:22 Bacteroidetes FR885648.1 3 CDB59852.1 17862 1864 GCA_000154245.1 411489 411489 Clostridium sp. L2-50 L2-50 Firmicutes DS480312.1 3 ED056710.1 17865 1865 GCA_000768935.1 1515615 1515615 Porphyromonas sp. COT-290 OH860 COT-290 Bacteroidetes JRAR01000072.1 3 KGN82593.1 17868 OH860 1866 GCA_001183745.1 438 438 Acetobacter pasteurianus Ab 3 Proteobacteria CP012111.1 3 AKR49340.1 17871 1867 GCA_000496775.1 1399146 550 Enterobacter cloacae S611 S611 Proteobacteria AXOM01000048.1 3 ESS57310.1 17874 1868 GCA_000007445.1 199310 562 Escherichia coli CFT073 CFT073 Proteobacteria AE014075.1 3 AAN80859.1 17877 1869 GCA_000164295.1 749528 562 Escherichia coli MS 45-1 MS 45-1 Proteobacteria GG772205.1 3 EFJ93881.1 17880 1870 GCA_000164415.1 749536 562 Escherichia coli MS 110-3 MS 110-3 Proteobacteria GG773033.1 3 EFU46133.1 17883 1871 GCA_000164435.1 749541 562 Escherichia coli MS 153-1 MS 153-1 Proteobacteria GG773212.1 3 EFU49595.1 17886 1872 GCA_000164535.1 749550 562 Escherichia coli MS 200-1 MS 200-1 Proteobacteria GG773863.1 3 EFJ59502.1 17889 1873 GCA_000164595.1 749530 562 Escherichia coli MS 60-1 MS 60-1 Proteobacteria GG774357.1 3 EGB82665.1 17892 1874 GCA_000179795.1 753642 562 Escherichia coli NC101 NC101 Proteobacteria AEFA01000016.1 3 EFM52806.1 17895 1875 GCA_000190915.1 656390 562 Escherichia coli H263 H263 Proteobacteria GL871979.1 3 EGB52118.1 17898 1876 GCA_000233875.1 885276 562 Escherichia coli str. ‘clone D i2’ clone D i2 Proteobacteria CP002211.1 3 AER84780.1 17901 1877 GCA_000233895.1 885275 562 Escherichia coli str. ‘clone D i14’ clone D i14 Proteobacteria CP002212.1 3 AER89699.1 17904 1878 GCA_000241975.1 656398 562 Escherichia coli H397 H397 Proteobacteria JH590471.1 3 EH002519.1 17907 1879 GCA_000295775.2 1206108 562 Escherichia coli J96 J96 Proteobacteria ALIN02000009.1 3 ELL42848.1 17910 1880 GCA_000326165.1 1169374 562 Escherichia coli KTE106 KTE106 Proteobacteria ANXN01000036.1 3 ELI13536.1 17913 1881 GCA_000326225.1 1169381 562 Escherichia coli KTE124 KTE124 Proteobacteria ANXU01000045.1 3 ELI43906.1 17916 1882 GCA_000326285.1 1169385 562 Escherichia coli KTE131 KTE131 Proteobacteria ANXY01000031.1 3 ELI67626.1 17919 1883 GCA_000326305.1 1169386 562 Escherichia coli KTE133 KTE133 Proteobacteria ANXZ01000016.1 3 ELI72589.1 17922 1884 GCA_000326325.1 1169387 562 Escherichia coli KTE137 KTE137 Proteobacteria ANYA01000031.1 3 ELI75960.1 17925 1885 GCA_000326385.1 1169393 562 Escherichia coli KTE153 KTE153 Proteobacteria ANYG01000025.1 3 EU03561.1 17928 1886 GCA_000326405.1 1169395 562 Escherichia coli KTE160 KTE160 Proteobacteria ANYI01000026.1 3 EU14334.1 17931 1887 GCA_000326605.1 1169400 562 Escherichia coli KTE174 KTE174 Proteobacteria ANYN01000054.1 3 EU38405.1 17934 1888 GCA_000326625.1 1169366 562 Escherichia coli KTE88 KTE88 Proteobacteria ANYV01000037.1 3 EU71313.1 17937 1889 GCA_000326705.1 1169390 562 Escherichia coli KTE145 KTE145 Proteobacteria ANYD01000026.1 3 ELI89432.1 17940 1890 GCA_000326905.1 1169398 562 Escherichia coli KTE167 KTE167 Proteobacteria KB731668.1 3 EU28710.1 17943 1891 GCA_000350745.1 1169334 562 Escherichia coli KTE15 KTE15 Proteobacteria KB732276.1 3 ELC30031.1 17946 1892 GCA_000350985.1 1181735 562 Escherichia coli KTE189 KTE189 Proteobacteria KB732437.1 3 ELC84584.1 17949 1893 GCA_000351005.1 1181737 562 Escherichia coli KTE191 KTE191 Proteobacteria KB732446.1 3 ELC89744.1 17952 1894 GCA_000351045.1 1181747 562 Escherichia coli KTE201 KTE201 Proteobacteria KB732482.1 3 ELC99568.1 17955 1895 GCA_000351105.1 1181752 562 Escherichia coli KTE206 KTE206 Proteobacteria KB732494.1 3 ELD14727.1 17958 1896 GCA_000351245.1 1181766 562 Escherichia coli KTE220 KTE220 Proteobacteria KB733367.1 3 ELD50500.1 17961 1897 GCA_000351485.1 1182660 562 Escherichia coli KTE53 KTE53 Proteobacteria KB732687.1 3 ELE05785.1 17964 1898 GCA_000351545.1 1182664 562 Escherichia coli KTE57 KTE57 Proteobacteria KB732714.1 3 ELE19657.1 17967 1899 GCA_000351565.1 1182665 562 Escherichia coli KTE58 KTE58 Proteobacteria KB732739.1 3 ELE23560.1 17970 1900 GCA_000351665.1 1182679 562 Escherichia coli KTE72 KTE72 Proteobacteria KB733397.1 3 ELE50401.1 17973 1901 GCA_000351805.1 1182691 562 Escherichia coli KTE86 KTE86 Proteobacteria KB732872.1 3 ELE80392.1 17976 1902 GCA_000351825.1 1182692 562 Escherichia coli KTE87 KTE87 Proteobacteria KB732881.1 3 ELE90662.1 17979 1903 GCA_000351845.1 1182696 562 Escherichia coli KTE93 KTE93 Proteobacteria KB732897.1 3 ELE91478.1 17982 1904 GCA_000352085.1 1169328 562 Escherichia coli KTE8 KTE8 Proteobacteria KB732984.1 3 ELF50405.1 17985 1905 GCA_000352265.1 1169341 562 Escherichia coli KTE22 KTE22 Proteobacteria KB733023.1 3 ELF92090.1 17988 1906 GCA_000352365.1 1182666 562 Escherichia coli KTE59 KTE59 Proteobacteria KB733042.1 3 ELG14338.1 17991 1907 GCA_000352385.1 1182670 562 Escherichia coli KTE63 KTE63 Proteobacteria KB733049.1 3 ELG17003.1 17994 1908 GCA_000352405.1 1182672 562 Escherichia coli KTE65 KTE65 Proteobacteria KB733066.1 3 ELG24591.1 17997 1909 GCA_000352545.1 1182709 562 Escherichia coli KTE118 KTE118 Proteobacteria KB733111.1 3 ELG54538.1 18000 1910 GCA_000352565.1 1182712 562 Escherichia coli KTE123 KTE123 Proteobacteria KB733071.1 3 ELG58278.1 18003 1911 GCA_000352905.1 1181729 562 Escherichia coli KTE183 KTE183 Proteobacteria KB733173.1 3 ELH44356.1 18006 1912 GCA_000353005.1 1181753 562 Escherichia coli KTE207 KTE207 Proteobacteria KB733196.1 3 ELH62529.1 18009 1913 GCA_000353025.1 1181755 562 Escherichia coli KTE209 KTE209 Proteobacteria KB733361.1 3 ELH59268.1 18012 1914 GCA_000353065.1 1181761 562 Escherichia coli KTE215 KTE215 Proteobacteria KB733208.1 3 ELH80077.1 18015 1915 GCA_000353105.1 1181764 562 Escherichia coli KTE218 KTE218 Proteobacteria KB733215.1 3 ELH85630.1 18018 1916 GCA_000353125.1 1181769 562 Escherichia coli KTE223 KTE223 Proteobacteria KB733352.1 3 ELH88471.1 18021 1917 GCA_000353185.1 1169372 562 Escherichia coli KTE104 KTE104 Proteobacteria KB733272.1 3 ELI08747.1 18024 1918 GCA_000401755.1 1322345 562 Escherichia coli ATCC 25922 ATCC 25922 Proteobacteria ASHD01000045.1 3 EOR52540.1 18027 1919 GCA_000408125.1 1181741 562 Escherichia coli KTE195 KTE195 Proteobacteria KE136905.1 3 EOV07668.1 18030 1920 GCA_000408285.1 1181772 562 Escherichia coli KTE226 KTE226 Proteobacteria KE136996.1 3 EOX10652.1 18033 1921 GCA_000408505.1 1182693 562 Escherichia coli KTE89 KTE89 Proteobacteria KE137142.1 3 EOV94186.1 18036 1922 GCA_000456005.1 1280956 562 Escherichia coli HVH 1 (4-6876161) HVH 1 (4-6876161) Proteobacteria KE698776.1 3 EQN11053.1 18039 1923 GCA_000456065.1 1280959 562 Escherichia coli HVH 4 (4-7276109) HVH 4 (4-7276109) Proteobacteria KE698831.1 3 EQN19685.1 18042 1924 GCA_000456125.1 1280962 562 Escherichia coli HVH 7 (4-7315031) HVH 7 (4-7315031) Proteobacteria KE698877.1 3 EQN35019.1 18045 1925 GCA_000456205.1 1280967 562 Escherichia coli HVH 16 (4-7649002) HVH 16 (4-7649002) Proteobacteria KE698922.1 3 EQN48989.1 18048 1926 GCA_000456285.1 1280971 562 Escherichia coli HVH 20 (4-5865042) HVH 20 (4-5865042) Proteobacteria KE699006.1 3 EQN62516.1 18051 1927 GCA_000456305.1 1280972 562 Escherichia coli HVH 21 (4-4517873) HVH 21 (4-4517873) Proteobacteria KE699022.1 3 EQN79331.1 18054 1928 GCA_000456385.1 1280977 562 Escherichia coli HVH 26 (4-5703913) HVH 26 (4-5703913) Proteobacteria KE699069.1 3 EQN86135.1 18057 1929 GCA_000456405.1 1280978 562 Escherichia coli HVH 27 (4-7449267) HVH 27 (4-7449267) Proteobacteria KE699090.1 3 EQN96595.1 18060 1930 GCA_000456425.1 1280979 562 Escherichia coli HVH 28 (4-0907367) HVH 28 (4-0907367) Proteobacteria KE699097.1 3 EQO12273.1 18063 1931 GCA_000456465.1 1280981 562 Escherichia coli HVH 30 (4-2661829) HVH 30 (4-2661829) Proteobacteria KE699120.1 3 EQO16638.1 18066 1932 GCA_000456485.1 1280982 562 Escherichia coli HVH 31 (4-2602156) HVH 31 (4-2602156) Proteobacteria KE699127.1 3 EQO18515.1 18069 1933 GCA_000456545.1 1280985 562 Escherichia coli HVH 35 (4-2962667) HVH 35 (4-2962667) Proteobacteria KE699157.1 3 EQO32111.1 18072 1934 GCA_000456565.1 1280987 562 Escherichia coli HVH 37 (4-2773848) HVH 37 (4-2773848) Proteobacteria KE699170.1 3 EQO40647.1 18075 1935 GCA_000456625.1 1280990 562 Escherichia coli HVH 40 (4-1219782) HVH 40 (4-1219782) Proteobacteria KE699214.1 3 EQO47387.1 18078 1936 GCA_000456765.1 1280997 562 Escherichia coli HVH 48 (4-2658593) HVH 48 (4-2658593) Proteobacteria KE699294.1 3 EQO84680.1 18081 1937 GCA_000456785.1 1280999 562 Escherichia coli HVH 51 (4-2172526) HVH 51 (4-2172526) Proteobacteria KE699304.1 3 EQO93036.1 18084 1938 GCA_000456825.1 1281002 562 Escherichia coli HVH 55 (4-2646161) HVH 55 (4-2646161) Proteobacteria KE699321.1 3 EQP00513.1 18087 1939 GCA_000456845.1 1281003 562 Escherichia coli HVH 56 (4-2153033) HVH 56 (4-2153033) Proteobacteria KE699325.1 3 EQP09250.1 18090 1940 GCA_000456865.1 1281004 562 Escherichia coli HVH 58 (4-2839709) HVH 58 (4-2839709) Proteobacteria KE699335.1 3 EQP11538.1 18093 1941 GCA_000456905.1 1281006 562 Escherichia coli HVH 61 (4-2736020) HVH 61 (4-2736020) Proteobacteria KE699360.1 3 EQP21163.1 18096 1942 GCA_000456965.1 1281009 562 Escherichia coli HVH 68 (4-0888028) HVH 68 (4-0888028) Proteobacteria KE699393.1 3 EQP38130.1 18099 1943 GCA_000457005.1 1281011 562 Escherichia coli HVH 70 (4-2963531) HVH 70 (4-2963531) Proteobacteria KE699425.1 3 EQP55415.1 18102 1944 GCA_000457045.1 1281013 562 Escherichia coli HVH 74 (4-1034782) HVH 74 (4-1034782) Proteobacteria KE699452.1 3 EQP53333.1 18105 1945 GCA_000457065.1 1281014 562 Escherichia coli HVH 76 (4-2538717) HVH 76 (4-2538717) Proteobacteria KE699459.1 3 EQP61514.1 18108 1946 GCA_000457085.1 1281015 562 Escherichia coli HVH 77 (4-2605759) HVH 77 (4-2605759) Proteobacteria KE699520.1 3 EQP73530.1 18111 1947 GCA_000457105.1 1281016 562 Escherichia coli HVH 78 (4-2735946) HVH 78 (4-2735946) Proteobacteria KE699531.1 3 EQP70429.1 18114 1948 GCA_000457265.1 1281026 562 Escherichia coli HVH 89 (4-5885604) HVH 89 (4-5885604) Proteobacteria KE699634.1 3 EQQ06480.1 18117 1949 GCA_000457325.1 1281029 562 Escherichia coli HVH 92 (4-5930790) HVH 92 (4-5930790) Proteobacteria KE705250.1 3 EQQ25252.1 18120 1950 GCA_000457345.1 1281031 562 Escherichia coli HVH 95 (4-6074464) HVH 95 (4-6074464) Proteobacteria KE699681.1 3 EQQ27933.1 18123 1951 GCA_000457385.1 1281032 562 Escherichia coli HVH 96 (4-5934869) HVH 96 (4-5934869) Proteobacteria KE699694.1 3 EQQ41432.1 18126 1952 GCA_000457405.1 1281036 562 Escherichia coli HVH 100 (4-2850729) HVH 100 (4-2850729) Proteobacteria KE699702.1 3 EQQ33647.1 18129 1953 GCA_000457435.1 1281039 562 Escherichia coli HVH 103 (4-5904188) HVH 103 (4-5904188) Proteobacteria KE699715.1 3 EQQ53134.1 18132 1954 GCA_000457515.1 1281045 562 Escherichia coli HVH 109 (4-6977162) HVH 109 (4-6977162) Proteobacteria KE699785.1 3 EQQ74422.1 18135 1955 GCA_000457555.1 1281047 562 Escherichia coli HVH 111 (4-7039018) HVH 111 (4-7039018) Proteobacteria KE699806.1 3 EQQ75981.1 18138 1956 GCA_000457575.1 1281048 562 Escherichia coli HVH 112 (4-5987253) HVH 112 (4-5987253) Proteobacteria KE699821.1 3 EQQ88668.1 18141 1957 GCA_000457615.1 1281050 562 Escherichia coli HVH 114 (4-7037740) HVH 114 (4-7037740) Proteobacteria KE699847.1 3 EQQ90545.1 18144 1958 GCA_000457675.1 1281053 562 Escherichia coli HVH 116 (4-6879942) HVH 116 (4-6879942) Proteobacteria KE699890.1 3 EQR07410.1 18147 1959 GCA_000457695.1 1281054 562 Escherichia coli HVH 117 (4-6857191) HVH 117(4-6857191) Proteobacteria KE699912.1 3 EQR15138.1 18150 1960 GCA_000457715.1 1281055 562 Escherichia coli HVH 118 (4-7345399) HVH 118 (4-7345399) Proteobacteria KE699926.1 3 EQR19371.1 18153 1961 GCA_000457755.1 1281057 562 Escherichia coli HVH 120 (4-6978681) HVH 120 (4-6978681) Proteobacteria KE699947.1 3 EQR28930.1 18156 1962 GCA_000457915.1 1281065 562 Escherichia coli HVH 132 (4-6876862) HVH 132 (4-6876862) Proteobacteria KE700080.1 3 EQR67054.1 18159 1963 GCA_000457995.1 1281070 562 Escherichia coli HVH 137 (4-2124971) HVH 137(4-2124971) Proteobacteria KE700110.1 3 EQR88164.1 18162 1964 GCA_000458015.1 1281071 562 Escherichia coli HVH 138 (4-6066704) HVH 138 (4-6066704) Proteobacteria KE700120.1 3 EQR94358.1 18165 1965 GCA_000458095.1 1281075 562 Escherichia coli HVH 142 (4-5627451) HVH 142 (4-5627451) Proteobacteria KE700203.1 3 EQS19450.1 18168 1966 GCA_000458115.1 1281076 562 Escherichia coli HVH 143 (4-5674999) HVH 143 (4-5674999) Proteobacteria KE700210.1 3 EQS13124.1 18171 1967 GCA_000458135.1 1281077 562 Escherichia coli HVH 144 (4-4451937) HVH 144 (4-4451937) Proteobacteria KE700223.1 3 EQS20959.1 18174 1968 GCA_000458215.1 1281082 562 Escherichia coli HVH 149 (4-4451880) HVH 149 (4-4451880) Proteobacteria KE700251.1 3 EQS40214.1 18177 1969 GCA_000458355.1 1281090 562 Escherichia coli HVH 157 (4-3406229) HVH 157 (4-3406229) Proteobacteria KE700382.1 3 ERA75001.1 18180 1970 GCA_000458375.1 1281091 562 Escherichia coli HVH 158 (4-3224287) HVH 158 (4-3224287) Proteobacteria KE700388.1 3 EQS62808.1 18183 1971 GCA_000458395.1 1281092 562 Escherichia coli HVH 159 (4-5818141) HVH 159 (4-5818141) Proteobacteria KE700400.1 3 ERA80457.1 18186 1972 GCA_000458415.1 1281093 562 Escherichia coli HVH 160 (4-5695937) HVH 160 (4-5695937) Proteobacteria KE700412.1 3 ERA86693.1 18189 1973 GCA_000458435.1 1281094 562 Escherichia coli HVH 161 (4-3119890) HVH 161 (4-3119890) Proteobacteria KE700429.1 3 EQS67056.1 18192 1974 GCA_000458535.1 1281099 562 Escherichia coli HVH 169 (4-1075578) HVH 169 (4-1075578) Proteobacteria KE700489.1 3 EQS96897.1 18195 1975 GCA_000458575.1 1281101 562 Escherichia coli HVH 171 (4-3191958) HVH 171 (4-3191958) Proteobacteria KE700518.1 3 EQT00426.1 18198 1976 GCA_000458605.1 1281102 562 Escherichia coli HVH 172 (4-3248542) HVH 172 (4-3248542) Proteobacteria KE700534.1 3 EQT14974.1 18201 1977 GCA_000458645.1 1281104 562 Escherichia coli HVH 175 (4-3405184) HVH 175 (4-3405184) Proteobacteria KE700564.1 3 EQT25531.1 18204 1978 GCA_000458745.1 1281111 562 Escherichia coli HVH 184 (4-3343286) HVH 184 (4-3343286) Proteobacteria KE700641.1 3 EQT45492.1 18207 1979 GCA_000458765.1 1281112 562 Escherichia coli HVH 185 (4-2876639) HVH 185 (4-2876639) Proteobacteria KE700651.1 3 EQT50681.1 18210 1980 GCA_000458895.1 1281119 562 Escherichia coli HVH 192 (4-3054470) HVH 192 (4-3054470) Proteobacteria KE700778.1 3 EQT83221.1 18213 1981 GCA_000458935.1 1281121 562 Escherichia coli HVH 194 (4-2356805) HVH 194 (4-2356805) Proteobacteria KE700789.1 3 EQT95718.1 18216 1982 GCA_000458995.1 1281124 562 Escherichia coli HVH 197 (4-4466217) HVH 197 (4-4466217) Proteobacteria KE700810.1 3 EQU21869.1 18219 1983 GCA_000459035.1 1281126 562 Escherichia coli HVH 199 (4-5670322) HVH 199 (4-5670322) Proteobacteria KE700830.1 3 EQU12098.1 18222 1984 GCA_000459255.1 1281137 562 Escherichia coli HVH 210 (4-3042480) HVH 210 (4-3042480) Proteobacteria KE700929.1 3 ERA90778.1 18225 1985 GCA_000459275.1 1281138 562 Escherichia coli HVH 211 (4-3041891) HVH 211 (4-3041891) Proteobacteria KE700944.1 3 EQU70206.1 18228 1986 GCA_000459295.1 1281139 562 Escherichia coli HVH 212 (3-9305343) HVH 212 (3-9305343) Proteobacteria KE700966.1 3 EQU77946.1 18231 1987 GCA_000459355.1 1281143 562 Escherichia coli HVH 216 (4-3042952) HVH 216 (4-3042952) Proteobacteria KE701004.1 3 EQU95026.1 18234 1988 GCA_000459395.1 1281145 562 Escherichia coli HVH 218 (4-4500903) HVH 218 (4-4500903) Proteobacteria KE701041.1 3 EQV01575.1 18237 1989 GCA_000459415.1 1281146 562 Escherichia coli HVH 220 (4-5876842) HVH 220 (4-5876842) Proteobacteria KE701064.1 3 EQV09456.1 18240 1990 GCA_000459515.1 1281151 562 Escherichia coli HVH 227 (4-2277670) HVH 227 (4-2277670) Proteobacteria KE701157.1 3 EQV27904.1 18243 1991 GCA_000459535.1 1281152 562 Escherichia coli HVH 228 (4-7787030) HVH 228 (4-7787030) Proteobacteria KE701167.1 3 ERA94628.1 18246 1992 GCA_000459595.1 1281155 562 Escherichia coli KOEGE 10 (25a) KOEGE 10 (25a) Proteobacteria KE701219.1 3 ERB07224.1 18249 1993 GCA_000459615.1 1281156 562 Escherichia coli KOEGE 30 (63a) KOEGE 30 (63a) Proteobacteria KE701229.1 3 EQV33722.1 18252 1994 GCA_000459755.1 1281163 562 Escherichia coli KOEGE 58 (171a) KOEGE 58 (171a) Proteobacteria KE701333.1 3 EQV70972.1 18255 1995 GCA_000459835.1 1281167 562 Escherichia coli KOEGE 70 (185a) KOEGE 70 (185a) Proteobacteria KE701373.1 3 EQV84934.1 18258 1996 GCA_000460055.1 1281178 562 Escherichia coli UMEA 3053-1 UMEA 3053-1 Proteobacteria KE701486.1 3 EQW43215.1 18261 1997 GCA_000460175.1 1281184 562 Escherichia coli UMEA 3113-1 UMEA 3113-1 Proteobacteria KE701574.1 3 EQW70393.1 18264 1998 GCA_000460215.1 1281186 562 Escherichia coli UMEA 3121-1 UMEA 3121-1 Proteobacteria KE701594.1 3 EQW80283.1 18267 1999 GCA_000460235.1 1281187 562 Escherichia coli UMEA 3122-1 UMEA 3122-1 Proteobacteria KE701612.1 3 EQW87486.1 18270 2000 GCA_000460415.1 1281197 562 Escherichia coli UMEA 3159-1 UMEA 3159-1 Proteobacteria KE701731.1 3 EQX12316.1 18273 2001 GCA_000460515.1 1281202 562 Escherichia coli UMEA 3172-1 UMEA 3172-1 Proteobacteria KE701794.1 3 EQX35785.1 18276 2002 GCA_000460575.1 1281205 562 Escherichia coli UMEA 3175-1 UMEA 3175-1 Proteobacteria KE701853.1 3 EQX43608.1 18279 2003 GCA_000460655.1 1281209 562 Escherichia coli UMEA 3185-1 UMEA 3185-1 Proteobacteria KE701908.1 3 EQX66169.1 18282 2004 GCA_000460695.1 1281211 562 Escherichia coli UMEA 3193-1 UMEA 3193-1 Proteobacteria KE701963.1 3 EQX76187.1 18285 2005 GCA_000460875.1 1281220 562 Escherichia coli UMEA 3216-1 UMEA 3216-1 Proteobacteria KE702085.1 3 EQY22299.1 18288 2006 GCA_000460915.1 1281222 562 Escherichia coli UMEA 3220-1 UMEA 3220-1 Proteobacteria KE702109.1 3 EQY33196.1 18291 2007 GCA_000460955.1 1281224 562 Escherichia coli UMEA 3222-1 UMEA 3222-1 Proteobacteria KE702144.1 3 EQY45032.1 18294 2008 GCA_000461035.1 1281228 562 Escherichia coli UMEA 3244-1 UMEA 3244-1 Proteobacteria KE702194.1 3 EQY55714.1 18297 2009 GCA_000461055.1 1281230 562 Escherichia coli UMEA 3257-1 UMEA 3257-1 Proteobacteria KE702215.1 3 EQY72171.1 18300 2010 GCA_000461335.1 1281248 562 Escherichia coli UMEA 3391-1 UMEA 3391-1 Proteobacteria KE702394.1 3 EQZ19658.1 18303 2011 GCA_000461375.1 1281252 562 Escherichia coli UMEA 3585-1 UMEA 3585-1 Proteobacteria KE702412.1 3 EQZ26675.1 18306 2012 GCA_000461435.1 1281255 562 Escherichia coli UMEA 3617-1 UMEA 3617-1 Proteobacteria KE702447.1 3 EQZ41390.1 18309 2013 GCA_000461655.1 1281268 562 Escherichia coli UMEA 3707-1 UMEA 3707-1 Proteobacteria KE702569.1 3 EQZ91637.1 18312 2014 GCA_000461815.1 1281276 562 Escherichia coli UMEA 3955-1 UMEA 3955-1 Proteobacteria KE702703.1 3 ERA32823.1 18315 2015 GCA_000461835.1 1281277 562 Escherichia coli UMEA 4075-1 UMEA 4075-1 Proteobacteria KE702710.1 3 ERA36348.1 18318 2016 GCA_000463605.1 1281257 562 Escherichia coli UMEA 3652-1 UMEA 3652-1 Proteobacteria KE705271.1 3 ERF54134.1 18321 2017 GCA_000488075.1 1281249 562 Escherichia coli UMEA 3426-1 UMEA 3426-1 Proteobacteria KI530636.1 3 ESK18132.1 18324 2018 GCA_000488095.1 1281234 562 Escherichia coli UMEA 3290-1 UMEA 3290-1 Proteobacteria KI530644.1 3 ESK18554.1 18327 2019 GCA_000488115.1 1281263 562 Escherichia coli UMEA 3693-1 UMEA 3693-1 Proteobacteria KI530660.1 3 ESK29586.1 18330 2020 GCA_000488315.1 1268980 562 Escherichia coli 907391 907391 Proteobacteria KI530980.1 3 ESC95631.1 18333 2021 GCA_000488475.1 1268990 562 Escherichia coli 907892 907892 Proteobacteria KI532243.1 3 ESD43645.1 18336 2022 GCA_000488795.1 1269010 562 Escherichia coli 910096-2 910096-2 Proteobacteria KI534866.1 3 ESE27410.1 18339 2023 GCA_000488815.1 1269008 562 Escherichia coli A25922R A25922R Proteobacteria KI535058.1 3 ESE32327.1 18342 2024 GCA_000488835.1 1269009 562 Escherichia coli A35218R A35218R Proteobacteria KI535180.1 3 ESE38128.1 18345 2025 GCA_000494975.1 1281023 562 Escherichia coli HVH 86 (4-7026218) HVH 86 (4-7026218) Proteobacteria KI538693.1 3 ESP10882.1 18348 2026 GCA_000494975.1 1281023 562 Escherichia coli HVH 86 (4-7026218) HVH 86 (4-7026218) Proteobacteria KI538695.1 3 ESP23171.1 18351 2027 GCA_000506445.2 1389417 562 Escherichia coli LAU-EC6 LAU-EC6 Proteobacteria AYNF01000074.1 3 ETE11169.1 18354 2028 GCA_000507685.1 1281250 562 Escherichia coli UMEA 3489-1 UMEA 3489-1 Proteobacteria KI669372.1 3 ETF35984.1 18357 2029 GCA_000633655.1 1445863 562 Escherichia coli BIDMC 83 BIDMC 83 Proteobacteria KK214043.1 3 EZQ63564.1 18360 2030 GCA_000692475.1 1438673 562 Escherichia coli BIDMC 65 BIDMC 65 Proteobacteria KK736329.1 3 KDG03094.1 18363 2031 GCA_000696545.1 562 562 Escherichia coli 2009-46 Proteobacteria JJNT01000018.1 3 KD090448.1 18366 2032 GCA_000714595.1 316435 562 Escherichia coli Nissle 1917 Nissle 1917 Proteobacteria CP007799.1 3 AID79061.1 18369 2033 GCA_000743255.1 1322345 562 Escherichia coli ATCC 25922 ATCC 25922 Proteobacteria CP009072.1 3 AIL16531.1 18372 2034 GCA_001030285.1 562 562 Escherichia coli BWH59 Proteobacteria KQ087625.1 3 KLX17105.1 18375 2035 GCA_001030435.1 562 562 Escherichia coli MGH122 Proteobacteria KQ087876.1 3 KLX44352.1 18378 2036 GCA_001030445.1 562 562 Escherichia coli BIDMC97 Proteobacteria KQ087859.1 3 KLX45653.1 18381 2037 GCA_001280385.1 562 562 Escherichia coli SF-166 Proteobacteria CP012633.1 3 ALD34922.1 18384 2038 GCA_001463115.1 562 562 Escherichia coli 50664179 Proteobacteria LNHU01000095.1 3 KSY02659.1 18387 2039 GCA_001518355.1 562 562 Escherichia coli GN02748 Proteobacteria LQZV01000057.1 3 KUR38256.1 18390 2040 GCA_001519115.1 562 562 Escherichia coli GN02007 Proteobacteria LQRW01000143.1 3 KUR81832.1 18393 2041 GCA_001519125.1 562 562 Escherichia coli GN02009 Proteobacteria LQRX01000141.1 3 KUR94071.1 18396 2042 GCA_001519215.1 562 562 Escherichia coli GN02045 Proteobacteria LQRY01000066.1 3 KUR99612.1 18399 2043 GCA_001519315.1 562 562 Escherichia coli GN02183 Proteobacteria LQSM01000041.1 3 KUS68705.1 18402 2044 GCA_001519365.1 562 562 Escherichia coli GN02175 Proteobacteria LQSL01000095.1 3 KUS65754.1 18405 2045 GCA_001519435.1 562 562 Escherichia coli GN02050 Proteobacteria LQRZ01000151.1 3 KUS06588.1 18408 2046 GCA_001519485.1 562 562 Escherichia coli GN03398 Proteobacteria LQVU01000143.1 3 KUW86271.1 18411 2047 GCA_001519595.1 562 562 Escherichia coli GN02323 Proteobacteria LQTA01000215.1 3 KUT33561.1 18414 2048 GCA_001519645.1 562 562 Escherichia coli GN02639 Proteobacteria LQUW01000126.1 3 KUV71918.1 18417 2049 GCA_001519895.1 562 562 Escherichia coli GN02345 Proteobacteria LQTD01000025.1 3 KUT65775.1 18420 2050 GCA_001520055.1 562 562 Escherichia coli GN02392 Proteobacteria LQTM01000161.1 3 KUT92654.1 18423 2051 GCA_001520195.1 562 562 Escherichia coli GN02627 Proteobacteria LQUU01000218.1 3 KUV55766.1 18426 2052 GCA_001520215.1 562 562 Escherichia coli GN02529 Proteobacteria LQUG01000209.1 3 KUU92987.1 18429 2053 GCA_001520555.1 562 562 Escherichia coli GN02590 Proteobacteria LQUP01000306.1 3 KUV32574.1 18432 2054 GCA_001520715.1 562 562 Escherichia coli GN03545 Proteobacteria LQVY01000168.1 3 KUX05523.1 18435 2055 GCA_001520735.1 562 562 Escherichia coli GN03496 Proteobacteria LQVX01000201.1 3 KUX02162.1 18438 2056 GCA_001520815.1 562 562 Escherichia coli GN02766 Proteobacteria LQVG01000173.1 3 KUW18188.1 18441 2057 GCA_001520895.1 562 562 Escherichia coli GN02411 Proteobacteria LQTP01000196.1 3 KUU04902.1 18444 2058 GCA_001521015.1 562 562 Escherichia coli GN02867 Proteobacteria LQVL01000165.1 3 KUW44250.1 18447 2059 GCA_001521155.1 562 562 Escherichia coli GN02787 Proteobacteria LQVJ01000229.1 3 KUW29415.1 18450 2060 GCA_001521225.1 562 562 Escherichia coli GN02350 Proteobacteria LQTE01000122.1 3 KUT58679.1 18453 2061 GCA_001521315.1 562 562 Escherichia coli GN03786 Proteobacteria LQWD01000068.1 3 KUX37210.1 18456 2062 GCA_001521355.1 562 562 Escherichia coli GN02547 Proteobacteria LQUL01000230.1 3 KUV14410.1 18459 2063 GCA_001521455.1 562 562 Escherichia coli GN04262 Proteobacteria LQWM01000080.1 3 KUX73639.1 18462 2064 GCA_001521575.1 562 562 Escherichia coli GN03324 Proteobacteria LQVT01000030.1 3 KUW86783.1 18465 2065 GCA_001521635.1 562 562 Escherichia coli GN04153 Proteobacteria LQWI01000317.1 3 KUX51102.1 18468 2066 GCA_001524885.1 562 562 Escherichia coli GN02609 Proteobacteria LRA001000013.1 3 KVI42424.1 18471 2067 GCA_001524905.1 562 562 Escherichia coli GN02487 Proteobacteria LRAN01000026.1 3 KVI22808.1 18474 2068 GCA_001562835.1 562 562 Escherichia coli JPH264 Proteobacteria KQ961179.1 3 KXG92284.1 18477 2069 GCA_001571575.1 562 562 Escherichia coli UM131 Proteobacteria LRX001000021.1 3 KXL04869.1 18480 2070 GCA_001571585.1 562 562 Escherichia coli UM149 Proteobacteria LRXN01000040.1 3 KXL27378.1 18483 2071 GCA_001571645.1 562 562 Escherichia coli CD44 Proteobacteria LRXP01000062.1 3 KXL05683.1 18486 2072 GCA_001571725.1 562 562 Escherichia coli UM128 Proteobacteria LRXU01000008.1 3 KXL13115.1 18489 2073 GCA_001471755.1 564 564 Escherichia fergusonii FDAARGOS_170 Proteobacteria LORS01000001.1 3 KTK75705.1 18492 2074 GCA_000415405.1 1244143 1351 Enterococcus faecalis VC1B-1 VC1B-1 Firmicutes KE352639.1 3 EPI32466.1 18495 2075 GCA_000519685.1 1391483 1351 Enterococcus faecalis EnGen0413 EnGen0413 Firmicutes KI913017.1 3 ETU24520.1 18498 2076 GCA_000322325.1 1138929 1352 Enterococcus faecium EnGen0048 E4215 Firmicutes KB030000.1 3 ELB67022.1 18501 2077 GCA_000371505.1 999408 1531 [Clostridium] clostridioforme 90A8 90A8 Firmicutes KB850978.1 3 ENZ13057.1 18504 2078 GCA_000487575.2 984211 28901 Salmonella enterica subsp. ATCC BAA-1592 Proteobacteria CP007531.1 3 AHW13890.1 18507 enterica serovar Anatum str. ATCC BAA-1592 2079 GCA_000495295.1 1321366 28901 Salmonella enterica subsp. S-70 Proteobacteria AQQN01000068.1 3 ESP72121.1 18510 enterica serovar Saintpaul str. S-70 2080 GCA_000495315.1 1323580 28901 Salmonella enterica subsp. S-76 Proteobacteria AROZ01000126.1 3 ESP76604.1 18513 enterica serovar Oranienburg str. S-76 2081 GCA_000748865.1 1173435 28901 Salmonella enterica subsp. CFSAN000207 Proteobacteria JRDQ01000027.1 3 KFT73591.1 18516 enterica serovar Bareilly str. CFSAN000207 2082 GCA_000806625.1 59201 28901 Salmonella enterica subsp. CFSAN024764 Proteobacteria JWQO01000015.1 3 KHP33099.1 18519 enterica 2083 GCA_000806925.1 59201 28901 Salmonella enterica subsp. CFSAN024763 Proteobacteria JWQP01000009.1 3 KHP34815.1 18522 enterica 2084 GCA_000988525.1 1454585 28901 Salmonella enterica subsp. USDA-ARS- Proteobacteria CP007584.1 3 AKF88465.1 18525 enterica serovar Anatum USMARC-1735 str. USDA-ARS-USMARC-1735 2085 GCA_001241205.1 58712 28901 Salmonella enterica subsp. CVM N44698 Proteobacteria LHFG01000018.1 3 KNK74744.1 18528 enterica serovar Anatum 2086 GCA_001247355.1 58712 28901 Salmonella enterica subsp. CVM N51307 Proteobacteria LHON01000003.1 3 KNW86449.1 18531 enterica serovar Anatum 2087 GCA_001447095.1 58712 28901 Salmonella enterica subsp. GT-38 Proteobacteria CP013226.1 3 ALO88020.1 18534 enterica serovar Anatum 2088 GCA_001475375.1 28901 28901 Salmonella enterica CVM 43842 Proteobacteria JYTH01000003.1 3 KTQ21993.1 18537 2089 GCA_001478355.1 58712 28901 Salmonella enterica subsp. CVM N38876 Proteobacteria JYXM01000005.1 3 KUB19293.1 18540 enterica serovar Anatum 2090 GCA_001479145.1 58712 28901 Salmonella enterica subsp. CVM N31410 Proteobacteria JYVK01000019.1 3 KTY61367.1 18543 enterica serovar Anatum 2091 GCA_001479905.1 192955 28901 Salmonella enterica subsp. CVM N38870 Proteobacteria JYXJ01000004.1 3 KUB06249.1 18546 enterica serovar Kentucky 2092 GCA_001481105.1 58712 28901 Salmonella enterica subsp. CVM N42473 Proteobacteria JYZV01000014.1 3 KUD94944.1 18549 enterica serovar Anatum 2093 GCA_001569785.1 28901 28901 Salmonella enterica NGUA13 Proteobacteria BCOL01000077.1 3 GAR53165.1 18552 2094 GCA_000154805.1 428126 29348 [Clostridium] spiroforme DSM 1552 Firmicutes DS562851.1 3 EDS74761.1 18555 DSM 1552 2095 GCA_001483145.1 172045 172045 Elizabethkingia miricola EM_CHUV Bacteroidetes LIQC01000001.1 3 KUG13796.1 18558 2096 GCA_000273015.1 997874 246787 Bacteroides cellulosilyticus CL02T12C19 Bacteroidetes JH724089.1 3 EIY23905.1 18561 CL02T12C19 2097 GCA_000403255.2 397288 397288 Lachnospiraceae bacterium 3-1 3-1 Firmicutes KE159581.1 3 EOS20511.1 18564 2098 GCA_000157115.2 469598 469598 Escherichia sp. 3_2_53FAA 3_2_53FAA Proteobacteria KQ235746.1 3 EEH86957.1 18567 2099 GCA_000437535.1 1263103 1263103 Prevotella stercorea CAG:629 Bacteroidetes FR899171.1 3 CDE34946.1 18570 2100 GCA_000486445.2 938141 28901 Salmonella enterica subsp. ATCC 15791 Proteobacteria CP012349.1 4 AKW15253.1 18573 enterica serovar Sloterdijk str. ATCC 15791 (Part B) L P T X ThsA ThsB (i) ThsB (ii) ThsB (iii) K protein M N O protein Q R S protein U V W protein DNA SEQ length ThsB (i) PRT SEQ DNA SEQ length ThsB (ii) PRT SEQ DNA SEQ length ThsB (iii) PRT SEQ DNA SEQ length 1 ID NO: (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) 2 18577 478 EAN10000.1 13221 18578 161 EAN09998.1 13222 18579 283 3 18580 477 EAZ85482.1 13224 18581 226 4 18582 478 EFF33949.1 13226 18583 161 EFF33951.1 13227 18584 283 5 18585 478 EFF30625.1 13229 18586 161 EFF30623.1 13230 18587 283 6 18588 461 EFA90643.1 13232 18589 165 7 18590 474 EFM65151.1 13234 18591 165 8 18592 471 EFF51767.1 13236 18593 182 EFF51769.1 13237 18594 203 9 18595 500 AAP11367.1 13239 18596 206 10 18597 473 EFM08815.1 13241 18598 166 EFM08816.1 13242 18599 203 11 18600 466 KND82315.1 13244 18601 160 KND82316.1 13245 18602 214 12 18603 466 KOE55211.1 13247 18604 160 KOE55212.1 13248 18605 214 13 18606 478 EHM35988.1 13250 18607 161 EHM35990.1 13251 18608 283 14 18609 473 EPE98430.1 13253 18610 162 15 18611 217 EGV07223.1 13255 18612 208 EGV07230.1 13256 18613 164 16 18614 469 EHD29826.1 13258 18615 206 EHD29828.1 13259 18616 310 17 18617 375 EHM75406.1 13261 18618 202 EHM75402.1 13262 18619 308 18 18620 466 EHK91560.1 13264 18621 69 EHK91561.1 13265 18622 214 19 18623 489 EOR48147.1 13267 18624 202 EOR48148.1 13268 18625 344 20 18626 470 EID19241.1 13270 18627 206 EID19242.1 13271 18628 388 21 18629 381 EIA14314.1 13273 18630 202 EIA14315.1 13274 18631 344 22 18632 159 EIC95415.1 13276 18633 122 23 18634 476 EKS70340.1 13278 18635 162 24 18636 466 KOE52659.1 13280 18637 214 KOE52660.1 13281 18638 160 25 18639 466 KOE56125.1 13283 18640 214 KOE56126.1 13284 18641 160 26 18642 465 EIJ69684.1 13286 18643 164 EIJ69602.1 13287 18644 208 27 18645 208 EIL59627.1 13289 18646 155 28 18647 477 EJH65284.1 13291 18648 97 29 18649 473 EPV35488.1 13293 18650 165 30 18651 499 CAN93963.1 13295 18652 956 31 18653 483 CAQ50580.1 13297 18654 202 CAQ50581.1 13298 18655 308 32 18656 482 EKF39861.1 13300 18657 162 EKF39859.1 13301 18658 184 33 18659 477 ETE93553.1 13303 18660 226 34 18661 477 ETE97367.1 13305 18662 226 35 18663 479 EPC81227.1 13307 18664 210 36 18665 478 ELI26318.1 13309 18666 203 37 18667 478 ELJ29819.1 13311 18668 203 38 18669 472 EME14865.1 13313 18670 160 EME14867.1 13314 18671 194 39 18672 484 EMF02810.1 13316 18673 163 40 18674 484 BAO35115.1 13318 18675 163 41 18676 560 BAO91364.1 13320 18677 485 42 18678 482 BAQ74701.1 13322 18679 158 BAQ74699.1 13323 18680 134 BAQ74700.1 13324 18681 177 43 18683 480 ENZ83251.1 13327 18684 163 ENZ83249.1 13328 18685 194 44 18686 480 EQB07553.1 13330 18687 155 45 18688 476 EPJ82188.1 13332 18689 160 46 18690 480 EPR14529.1 13334 18691 155 47 18692 483 EQM91606.1 13336 18693 202 EQM91605.1 13337 18694 344 48 18695 483 EPZ04958.1 13339 18696 202 EPZ04959.1 13340 18697 344 49 18698 483 EPZ06673.1 13342 18699 202 EPZ06672.1 13343 18700 344 50 18701 375 EPZ03689.1 13345 18702 202 EPZ03688.1 13346 18703 344 51 18704 375 EPZ11498.1 13348 18705 202 EPZ11497.1 13349 18706 308 52 18707 231 EQC60102.1 13351 18708 165 53 18709 473 EQG20076.1 13353 18710 141 54 18711 473 EQK23002.1 13355 18712 165 55 18713 482 ETR95050.1 13357 18714 164 ETR94961.1 13358 18715 385 ETR95013.1 13359 18716 111 56 18719 481 EQL89246.1 13363 18720 104 EQL89247.1 13364 18721 191 57 18722 484 ERH73217.1 13366 18723 163 58 18724 473 ERT62591.1 13368 18725 165 59 18726 487 ERT61533.1 13370 18727 163 ERT61545.1 13371 18728 376 60 18729 473 ERT58461.1 13373 18730 165 61 18731 482 ERT19167.1 13375 18732 158 ERT19165.1 13376 18733 179 ERT19166.1 13377 18734 183 62 18736 487 ESR69981.1 13380 18737 167 ESR69983.1 13381 18738 183 63 18739 480 KAJ84752.1 13383 18740 141 KAJ84753.1 13384 18741 206 64 18742 479 KAJ82224.1 13386 18743 206 65 18744 474 ETD82033.1 13388 18745 165 66 18746 489 ESZ88709.1 13390 18747 168 ESZ88707.1 13391 18748 184 67 18749 478 ETJ99317.1 13393 18750 203 68 18751 221 KYK73941.1 13395 18752 160 KYK73942.1 13396 18753 214 69 18754 468 ETO98875.1 13398 18755 166 70 18756 456 GAE27471.1 13400 18757 161 71 18758 451 GAM02794.1 13402 18759 143 GAM02793.1 13403 18760 186 72 18761 477 CAE30981.1 13405 18762 193 CAE30983.1 13406 18763 165 73 18764 477 CCP18524.1 13408 18765 146 CCP18522.1 13409 18766 307 74 18767 480 CDZ53066.1 13411 18768 159 75 18769 468 CEF52296.1 13413 18770 153 76 18771 237 CJD59502.1 13415 18772 248 77 18773 500 EEL09526.1 13417 18774 206 78 18775 476 EEL84781.1 13419 18776 192 EEL84783.1 13420 18777 139 79 18778 476 EEL90115.1 13422 18779 192 EEL90113.1 13423 18780 139 80 18781 473 EFH92718.1 13425 18782 165 81 18783 486 EFR92172.1 13427 18784 202 82 18785 487 EIK62341.1 13429 18786 167 EIK59131.1 13430 18787 192 83 18788 481 ABB40970.1 13432 18789 146 ABB40968.1 13433 18790 180 ABB40962.1 13434 18791 262 84 18792 480 ABD68806.1 13436 18793 157 85 18794 479 ABR91779.1 13438 18795 163 ABR91881.1 13439 18796 197 86 18797 477 ABI42032.1 13441 18798 164 ABI42037.1 13442 18799 160 87 18800 466 ABN74272.1 13444 18801 165 ABN74273.1 13445 18802 214 88 18803 549 ABO35463.1 13447 18804 171 89 18805 484 ABP73210.1 13449 18806 165 ABP73208.1 13450 18807 183 90 18808 478 ABR34953.1 13452 18809 229 ABR34957.1 13453 18810 202 ABR34959.1 13454 18811 166 91 18813 1197 ABR65054.1 13457 18814 641 92 18815 482 ACA73844.1 13459 18816 158 ACA73842.1 13460 18817 179 ACA73843.1 13461 18818 183 93 18820 476 ACB66893.1 13464 18821 135 ACB66892.1 13465 18822 197 94 18823 342 ACX81592.1 13467 18824 214 ACX81593.1 13468 18825 160 95 18826 479 ACZ11006.1 13470 18827 202 96 18828 325 ADB76072.1 13472 18829 421 ADB76078.1 13473 18830 793 97 18831 481 ADY67728.1 13475 18832 162 ADY67726.1 13476 18833 130 ADY67729.1 13477 18834 465 98 18835 293 ADP84994.1 13479 18836 535 99 18837 345 AEB29796.1 13481 18838 182 AEB29798.1 13482 18839 194 100 18840 482 AEA61150.1 13484 18841 161 AEA61151.1 13485 18842 193 AEA61157.1 13486 18843 155 101 18846 381 AFH70384.1 13490 18847 202 AFH70385.1 13491 18848 344 102 18849 466 AEW76522.1 13493 18850 214 AEW76523.1 13494 18851 160 103 18852 500 AEW57569.1 13496 18853 206 104 18854 504 AFK54068.1 13498 18855 151 AFK54069.1 13499 18856 206 AFK54066.1 13500 18857 285 105 18858 484 AIM23121.1 13502 18859 163 106 18860 476 AGG89636.1 13504 18861 158 107 18862 478 AFK58217.1 13506 18863 161 AFK58215.1 13507 18864 283 108 18865 443 AFO49033.1 13509 18866 133 AFO49034.1 13510 18867 177 AFO49032.1 13511 18868 282 109 18869 483 AFR74118.1 13513 18870 202 AFR74119.1 13514 18871 344 110 18872 551 AHK33007.1 13516 18873 377 111 18874 484 AGE19434.1 13518 18875 163 112 18876 307 AHZ68663.1 13520 18877 146 AHZ68658.1 13521 18878 165 AHZ68664.1 13522 18879 275 113 18880 103 AGM44766.1 13524 18881 155 114 18882 479 AGS26694.1 13526 18883 209 115 18884 484 AGO56415.1 13528 18885 163 116 18886 464 AGP48696.1 13530 18887 158 AGP48695.1 13531 18888 259 117 18889 478 AIU00716.1 13533 18890 229 AIU02169.1 13534 18891 202 AIU02168.1 13535 18892 166 118 18894 480 AHB77237.1 13538 18895 163 AHB77238.1 13539 18896 253 119 18897 240 AJK51072.1 13541 18898 156 120 18899 474 AHC80714.1 13543 18900 163 AHC80713.1 13544 18901 136 121 18902 474 AHC86146.1 13546 18903 163 AHC86145.1 13547 18904 136 122 18905 420 AHN71070.1 13549 18906 214 AHN71071.1 13550 18907 160 123 18908 466 AKU28343.1 13552 18909 214 AKU28344.1 13553 18910 160 124 18911 478 AJI88525.1 13555 18912 160 AJI88219.1 13556 18913 360 125 18914 472 AIQ75143.1 13558 18915 214 AIQ75145.1 13559 18916 234 126 18917 480 AIY12609.1 13561 18918 203 127 18919 478 AJJ37269.1 13563 18920 160 AJJ35782.1 13564 18921 360 128 18922 443 AJG12528.1 13566 18923 158 AJG12529.1 13567 18924 183 129 18925 480 AJY68817.1 13569 18926 163 AJY68816.1 13570 18927 196 130 18928 591 AJP52228.1 13572 18929 322 131 18930 481 AJP42563.1 13574 18931 166 132 18932 487 AKK01415.1 13576 18933 167 AKK01413.1 13577 18934 183 133 18935 487 AKC95052.1 13579 18936 163 AKC96108.1 13580 18937 175 AKC95053.1 13581 18938 376 134 18939 288 AKO52331.1 13583 18940 478 135 18941 472 AKV95757.1 13585 18942 195 136 18943 484 ALE97362.1 13587 18944 163 137 18945 485 ALJ08796.1 13589 18946 148 ALJ08793.1 13590 18947 175 ALJ08794.1 13591 18948 184 138 18949 466 AMQ92900.1 13593 18950 161 AMQ92901.1 13594 18951 214 139 18952 482 ALL13163.1 13596 18953 148 ALL13165.1 13597 18954 183 140 18955 103 ALQ62809.1 13599 18956 155 ALQ62808.1 13600 18957 192 141 18958 499 ALS70448.1 13602 18959 202 ALS70449.1 13603 18960 344 142 18961 489 ALS73059.1 13605 18962 202 ALS73060.1 13606 18963 344 143 18964 489 ALS86456.1 13608 18965 202 ALS86457.1 13609 18966 344 144 18967 482 ALZ77340.1 13611 18968 155 145 18969 103 ALZ79509.1 13613 18970 155 ALZ79508.1 13614 18971 192 146 18972 478 ALZ52746.1 13616 18973 161 ALZ52748.1 13617 18974 283 147 18975 475 AMJ40924.1 13619 18976 165 AMJ40925.1 13620 18977 164 AMJ40928.1 13621 18978 190 148 18979 470 AMH88750.1 13623 18980 206 AMH88748.1 13624 18981 388 149 18982 477 AMK33279.1 13626 18983 101 150 18984 1269 CNF27378.1 13628 18985 197 151 18986 477 CNF62559.1 13630 18987 146 CNF62502.1 13631 18988 161 152 18989 477 CNI81985.1 13633 18990 146 CNI82037.1 13634 18991 161 153 18992 477 CNI72014.1 13636 18993 146 CNI72072.1 13637 18994 161 154 18995 475 CQR45869.1 13639 18996 160 155 18997 475 CQJ38327.1 13641 18998 163 CQJ38351.1 13642 18999 200 CQJ38363.1 13643 19000 205 156 19002 488 CRD50733.1 13646 19003 160 CRD50737.1 13647 19004 224 CRD50724.1 13648 19005 168 157 19006 472 CRL40089.1 13650 19007 260 158 19008 473 CRR05841.1 13652 19009 165 159 19010 473 CRR37100.1 13654 19011 165 160 19012 473 CRR43597.1 13656 19013 165 161 19014 473 CRR34906.1 13658 19015 165 162 19016 473 CRR50125.1 13660 19017 165 163 19018 473 CRR37378.1 13662 19019 165 164 19020 473 CRR01720.1 13664 19021 165 165 19022 473 CRR52924.1 13666 19023 165 166 19024 473 CRR41677.1 13668 19025 165 167 19026 473 CRS57172.1 13670 19027 165 168 19028 473 CRS58230.1 13672 19029 165 169 19030 473 CRS57785.1 13674 19031 165 170 19032 473 CRS58148.1 13676 19033 165 171 19034 473 CRS55115.1 13678 19035 165 172 19036 473 CRS48573.1 13680 19037 165 173 19038 473 CRS51329.1 13682 19039 165 174 19040 473 CRS48383.1 13684 19041 165 175 19042 473 CRS50250.1 13686 19043 165 176 19044 473 CRS50706.1 13688 19045 165 177 19046 473 CRS54432.1 13690 19047 165 178 19048 473 CRS57073.1 13692 19049 165 179 19050 473 CRS58971.1 13694 19051 165 180 19052 473 CRS51119.1 13696 19053 165 181 19054 473 CRS51969.1 13698 19055 165 182 19056 473 CRS77748.1 13700 19057 165 183 19058 473 CRS83922.1 13702 19059 165 184 19060 473 CRS76799.1 13704 19061 165 185 19062 473 CRS78508.1 13706 19063 165 186 19064 473 CRS90915.1 13708 19065 165 187 19066 473 CRS79984.1 13710 19067 165 188 19068 473 CRS84447.1 13712 19069 165 189 19070 473 CRS81782.1 13714 19071 165 190 19072 473 CRS82426.1 13716 19073 165 191 19074 473 CRS93242.1 13718 19075 165 192 19076 473 CRT34724.1 13720 19077 165 193 19078 473 CRT26954.1 13722 19079 165 194 19080 473 CRT43911.1 13724 19081 165 195 19082 473 CRT34257.1 13726 19083 165 196 19084 473 CRT48110.1 13728 19085 165 197 19086 473 CRT41995.1 13730 19087 165 198 19088 473 CRT45579.1 13732 19089 165 199 19090 473 CRT37671.1 13734 19091 165 200 19092 473 CRT44902.1 13736 19093 165 201 19094 473 CRT51336.1 13738 19095 165 202 19096 473 CRT46016.1 13740 19097 165 203 19098 473 CRT46041.1 13742 19099 165 204 19100 473 CRT64543.1 13744 19101 165 205 19102 473 CRT20963.1 13746 19103 165 206 19104 473 CRT55725.1 13748 19105 165 207 19106 473 CRT61707.1 13750 19107 165 208 19108 473 CRT39213.1 13752 19109 165 209 19110 473 CRT66724.1 13754 19111 165 210 19112 473 CRT72269.1 13756 19113 165 211 19114 473 CRT58958.1 13758 19115 165 212 19116 473 CRT49588.1 13760 19117 165 213 19118 473 CRT72944.1 13762 19119 165 214 19120 473 CRT74928.1 13764 19121 165 215 19122 473 CRT61455.1 13766 19123 165 216 19124 473 CRT76662.1 13768 19125 165 217 19126 473 CRT71352.1 13770 19127 165 218 19128 473 CRT68276.1 13772 19129 165 219 19130 473 CRT74835.1 13774 19131 165 220 19132 473 CRT73989.1 13776 19133 165 221 19134 473 CRT75035.1 13778 19135 165 222 19136 473 CRT66762.1 13780 19137 165 223 19138 473 CRT70566.1 13782 19139 165 224 19140 473 CRT64116.1 13784 19141 165 225 19142 473 CRT57991.1 13786 19143 165 226 19144 473 CRT66324.1 13788 19145 165 227 19146 473 CRT75784.1 13790 19147 165 228 19148 473 CRT69390.1 13792 19149 165 229 19150 473 CRT79545.1 13794 19151 165 230 19152 473 CRT65368.1 13796 19153 165 231 19154 473 CRT80471.1 13798 19155 165 232 19156 473 CRT86536.1 13800 19157 165 233 19158 473 CRT83015.1 13802 19159 165 234 19160 473 CRT86807.1 13804 19161 165 235 19162 473 CRT85049.1 13806 19163 165 236 19164 473 CRT84210.1 13808 19165 165 237 19166 473 CRT81912.1 13810 19167 165 238 19168 473 CRT86929.1 13812 19169 165 239 19170 473 CRT82839.1 13814 19171 165 240 19172 473 CRT86340.1 13816 19173 165 241 19174 473 CRT89320.1 13818 19175 165 242 19176 473 CRT87538.1 13820 19177 165 243 19178 473 CRT90535.1 13822 19179 165 244 19180 473 CRT91762.1 13824 19181 165 245 19182 473 CRU00010.1 13826 19183 165 246 19184 473 CRT98481.1 13828 19185 165 247 19186 473 CRT99304.1 13830 19187 165 248 19188 473 CRT99602.1 13832 19189 165 249 19190 473 CRU04442.1 13834 19191 165 250 19192 473 CRU03264.1 13836 19193 165 251 19194 473 CRU09870.1 13838 19195 165 252 19196 473 CRU07131.1 13840 19197 165 253 19198 473 CRU20227.1 13842 19199 165 254 19200 473 CRU18225.1 13844 19201 165 255 19202 473 CRU22361.1 13846 19203 165 256 19204 473 CRU18030.1 13848 19205 165 257 19206 473 CRU21809.1 13850 19207 165 258 19208 473 CRU20299.1 13852 19209 165 259 19210 473 CRU20889.1 13854 19211 165 260 19212 473 CRU31581.1 13856 19213 165 261 19214 473 CRU58956.1 13858 19215 165 262 19216 473 CRU85953.1 13860 19217 165 263 19218 473 CRU70039.1 13862 19219 165 264 19220 473 CRU80230.1 13864 19221 165 265 19222 473 CRU71479.1 13866 19223 165 266 19224 473 CRU70694.1 13868 19225 165 267 19226 473 CRU61514.1 13870 19227 165 268 19228 473 CRU48049.1 13872 19229 165 269 19230 473 CRU68137.1 13874 19231 165 270 19232 473 CRU71318.1 13876 19233 165 271 19234 473 CRU93815.1 13878 19235 165 272 19236 473 CRU91179.1 13880 19237 165 273 19238 473 CRU91126.1 13882 19239 165 274 19240 473 CRU94296.1 13884 19241 165 275 19242 473 CRU82319.1 13886 19243 165 276 19244 473 CRU80792.1 13888 19245 165 277 19246 473 CRU91423.1 13890 19247 165 278 19248 473 CRU86616.1 13892 19249 165 279 19250 473 CRU82587.1 13894 19251 165 280 19252 473 CRU96749.1 13896 19253 165 281 19254 473 CRU83071.1 13898 19255 165 282 19256 473 CRU81012.1 13900 19257 165 283 19258 473 CRU78269.1 13902 19259 165 284 19260 473 CRV00482.1 13904 19261 165 285 19262 473 CRV01086.1 13906 19263 165 286 19264 473 CRU80178.1 13908 19265 165 287 19266 473 CRU93089.1 13910 19267 165 288 19268 473 CRU95681.1 13912 19269 165 289 19270 473 CRU99739.1 13914 19271 165 290 19272 473 CRV05003.1 13916 19273 165 291 19274 473 CRU97011.1 13918 19275 165 292 19276 473 CRV01718.1 13920 19277 165 293 19278 473 CRV11884.1 13922 19279 165 294 19280 473 CRV20258.1 13924 19281 165 295 19282 473 CRV16508.1 13926 19283 165 296 19284 473 CRV16547.1 13928 19285 165 297 19286 473 CRV08852.1 13930 19287 165 298 19288 473 CRV21821.1 13932 19289 165 299 19290 473 CRV22393.1 13934 19291 165 300 19292 473 CRV15620.1 13936 19293 165 301 19294 473 CRV21794.1 13938 19295 165 302 19296 473 CRV18929.1 13940 19297 165 303 19298 473 CRV22815.1 13942 19299 165 304 19300 473 CRV26122.1 13944 19301 165 305 19302 473 CRV22957.1 13946 19303 165 306 19304 473 CRV22952.1 13948 19305 165 307 19306 473 CRV23373.1 13950 19307 165 308 19308 473 CRV25540.1 13952 19309 165 309 19310 473 CRV23993.1 13954 19311 165 310 19312 473 CRV35423.1 13956 19313 165 311 19314 473 CRV28499.1 13958 19315 165 312 19316 473 CRV30748.1 13960 19317 165 313 19318 473 CRV37966.1 13962 19319 165 314 19320 473 CRV37006.1 13964 19321 165 315 19322 473 CRV38821.1 13966 19323 165 316 19324 473 CRV39783.1 13968 19325 165 317 19326 473 CRV45918.1 13970 19327 165 318 19328 473 CRV48895.1 13972 19329 165 319 19330 473 CRV53129.1 13974 19331 165 320 19332 473 CRV61825.1 13976 19333 165 321 19334 473 CRV60050.1 13978 19335 165 322 19336 473 CRV55444.1 13980 19337 165 323 19338 473 CRV60789.1 13982 19339 165 324 19340 473 CRW03939.1 13984 19341 165 325 19342 473 CRV54218.1 13986 19343 165 326 19344 473 CRV83250.1 13988 19345 165 327 19346 473 CRV91433.1 13990 19347 165 328 19348 473 CRV92210.1 13992 19349 165 329 19350 473 CRV87155.1 13994 19351 165 330 19352 473 CRV84642.1 13996 19353 165 331 19354 473 CRW02978.1 13998 19355 165 332 19356 473 CRV97172.1 14000 19357 165 333 19358 473 CRW00512.1 14002 19359 165 334 19360 473 CRW01306.1 14004 19361 165 335 19362 473 CRV92070.1 14006 19363 165 336 19364 473 CRV95683.1 14008 19365 165 337 19366 473 CRV97960.1 14010 19367 165 338 19368 473 CRV78510.1 14012 19369 165 339 19370 473 CRW03677.1 14014 19371 165 340 19372 473 CRV92174.1 14016 19373 165 341 19374 473 CRV95859.1 14018 19375 165 342 19376 473 CRV90213.1 14020 19377 165 343 19378 473 CRW02419.1 14022 19379 165 344 19380 473 CRW06354.1 14024 19381 165 345 19382 473 CRW10299.1 14026 19383 165 346 19384 473 CRV93338.1 14028 19385 165 347 19386 473 CRW10494.1 14030 19387 165 348 19388 473 CRW11905.1 14032 19389 165 349 19390 473 CRW12150.1 14034 19391 165 350 19392 473 CRW18044.1 14036 19393 165 351 19394 473 CRW22911.1 14038 19395 165 352 19396 473 CRW16832.1 14040 19397 165 353 19398 473 CRW17385.1 14042 19399 165 354 19400 473 CRW41624.1 14044 19401 165 355 19402 473 CRW33363.1 14046 19403 165 356 19404 473 CRW28608.1 14048 19405 165 357 19406 473 CRW38422.1 14050 19407 165 358 19408 473 CRW56682.1 14052 19409 165 359 19410 473 CRW57506.1 14054 19411 165 360 19412 473 CRW51171.1 14056 19413 165 361 19414 473 CRW56053.1 14058 19415 165 362 19416 473 CRW51028.1 14060 19417 165 363 19418 473 CRW62438.1 14062 19419 165 364 19420 473 CRW52653.1 14064 19421 165 365 19422 473 CRW57935.1 14066 19423 165 366 19424 473 CRW58504.1 14068 19425 165 367 19426 473 CRW59077.1 14070 19427 165 368 19428 473 CRW78808.1 14072 19429 165 369 19430 473 CRW72028.1 14074 19431 165 370 19432 473 CRW79987.1 14076 19433 165 371 19434 473 CRW76327.1 14078 19435 165 372 19436 473 CRW80128.1 14080 19437 165 373 19438 473 CRW66999.1 14082 19439 165 374 19440 473 CRW70540.1 14084 19441 165 375 19442 473 CRW76747.1 14086 19443 165 376 19444 473 CRW76878.1 14088 19445 165 377 19446 473 CRW80962.1 14090 19447 165 378 19448 473 CRW81686.1 14092 19449 165 379 19450 473 CRW77668.1 14094 19451 165 380 19452 473 CRW79793.1 14096 19453 165 381 19454 473 CRW80957.1 14098 19455 165 382 19456 481 CTT29891.1 14100 19457 155 383 19458 481 CTZ05317.1 14102 19459 155 384 19460 491 CUB16901.1 14104 19461 165 385 19462 482 CUI41016.1 14106 19463 161 CUI41048.1 14107 19464 193 CUI41311.1 14108 19465 155 386 19467 473 CUK22711.1 14111 19468 146 CUK22702.1 14112 19469 113 387 19470 486 CUK50737.1 14114 19471 202 388 19472 486 CUK61278.1 14116 19473 202 389 19474 486 CUK91822.1 14118 19475 202 390 19476 461 EDM51054.1 14120 19477 203 EDM51056.1 14121 19478 188 EDM51058.1 14122 19479 282 391 19480 484 CUY08443.1 14124 19481 163 392 19482 484 CUZ68596.1 14126 19483 163 393 19484 484 CUZ82333.1 14128 19485 163 394 19486 484 CUZ53179.1 14130 19487 163 395 19488 484 CVA27418.1 14132 19489 163 396 19490 484 CUZ41313.1 14134 19491 163 397 19492 484 CVA08079.1 14136 19493 163 398 19494 484 CUZ42337.1 14138 19495 163 399 19496 484 CVA28833.1 14140 19497 163 400 19498 484 CUZ16090.1 14142 19499 163 401 19500 484 CUZ61026.1 14144 19501 163 402 19502 484 CUZ90983.1 14146 19503 163 403 19504 484 CUZ73356.1 14148 19505 163 404 19506 484 CVA13520.1 14150 19507 163 405 19508 484 CVA22984.1 14152 19509 163 406 19510 484 CUY16507.1 14154 19511 163 407 19512 484 CUZ58687.1 14156 19513 163 408 19514 484 CUZ73597.1 14158 19515 163 409 19516 484 CUZ84806.1 14160 19517 163 410 19518 484 CUZ51268.1 14162 19519 163 411 19520 484 CVA06067.1 14164 19521 163 412 19522 484 CUZ66217.1 14166 19523 163 413 19524 484 CUZ96361.1 14168 19525 163 414 19526 484 CUZ56063.1 14170 19527 163 415 19528 484 CUZ47666.1 14172 19529 163 416 19530 306 CUZ65482.1 14174 19531 163 417 19532 484 CUZ64434.1 14176 19533 163 418 19534 484 CUZ76056.1 14178 19535 163 419 19536 484 CVA13481.1 14180 19537 163 420 19538 484 CVA27120.1 14182 19539 163 421 19540 484 CVA15846.1 14184 19541 163 422 19542 484 CUZ46999.1 14186 19543 163 423 19544 484 CUZ30986.1 14188 19545 163 424 19546 484 CUZ02657.1 14190 19547 163 425 19548 484 CUZ51348.1 14192 19549 163 426 19550 484 CUZ55112.1 14194 19551 163 427 19552 484 CVA20234.1 14196 19553 163 428 19554 484 CUZ69722.1 14198 19555 163 429 19556 306 CUZ82685.1 14200 19557 163 430 19558 484 CUZ92253.1 14202 19559 163 431 19560 484 CUZ80137.1 14204 19561 163 432 19562 306 CUZ43160.1 14206 19563 163 433 19564 484 CVA39205.1 14208 19565 163 434 19566 484 CVA66680.1 14210 19567 163 435 19568 484 CUZ78128.1 14212 19569 163 436 19570 484 CUZ53811.1 14214 19571 163 437 19572 484 CVA07157.1 14216 19573 163 438 19574 484 CUZ96160.1 14218 19575 163 439 19576 484 CVA63355.1 14220 19577 163 440 19578 484 CVB19765.1 14222 19579 163 441 19580 484 CVB15307.1 14224 19581 163 442 19582 484 CVB18610.1 14226 19583 163 443 19584 484 CVC33373.1 14228 19585 163 444 19586 484 CVC43459.1 14230 19587 163 445 19588 484 CVB44154.1 14232 19589 163 446 19590 484 CVC13577.1 14234 19591 163 447 19592 306 CVB24202.1 14236 19593 163 448 19594 484 CVB63328.1 14238 19595 163 449 19596 484 CVB58992.1 14240 19597 163 450 19598 306 CVB73390.1 14242 19599 163 451 19600 306 CVA22542.1 14244 19601 163 452 19602 484 CVC54883.1 14246 19603 163 453 19604 484 CVC47662.1 14248 19605 163 454 19606 484 CVC16868.1 14250 19607 163 455 19608 484 CVA94551.1 14252 19609 163 456 19610 484 CVB98061.1 14254 19611 163 457 19612 484 CVB27563.1 14256 19613 163 458 19614 484 CVC12710.1 14258 19615 163 459 19616 484 CVB94236.1 14260 19617 163 460 19618 484 CVC34514.1 14262 19619 163 461 19620 484 CVC37237.1 14264 19621 163 462 19622 484 CVC09959.1 14266 19623 163 463 19624 484 CVB51982.1 14268 19625 163 464 19626 484 CVB83683.1 14270 19627 163 465 19628 484 CVB86104.1 14272 19629 163 466 19630 484 CVC63999.1 14274 19631 163 467 19632 306 CVB86034.1 14276 19633 163 468 19634 484 CVC85541.1 14278 19635 163 469 19636 484 CVC33606.1 14280 19637 163 470 19638 484 CVC91020.1 14282 19639 163 471 19640 484 CVC23340.1 14284 19641 163 472 19642 484 CVC01465.1 14286 19643 163 473 19644 484 CVC17896.1 14288 19645 163 474 19646 484 CVC49253.1 14290 19647 163 475 19648 306 CVD13477.1 14292 19649 163 476 19650 484 CVC16333.1 14294 19651 163 477 19652 484 CVC38388.1 14296 19653 163 478 19654 484 CVC81405.1 14298 19655 163 479 19656 484 CVC81576.1 14300 19657 163 480 19658 484 CVC86607.1 14302 19659 163 481 19660 484 CVC98763.1 14304 19661 163 482 19662 484 CVC91159.1 14306 19663 163 483 19664 484 CVC94687.1 14308 19665 163 484 19666 484 CVC52230.1 14310 19667 163 485 19668 484 CVC98236.1 14312 19669 163 486 19670 484 CVB21750.1 14314 19671 163 487 19672 484 CVC48200.1 14316 19673 163 488 19674 484 CVC71583.1 14318 19675 163 489 19676 484 CVC84184.1 14320 19677 163 490 19678 306 CVC59774.1 14322 19679 163 491 19680 484 CVE09079.1 14324 19681 163 492 19682 484 CVD69880.1 14326 19683 163 493 19684 484 CVD52024.1 14328 19685 163 494 19686 484 CVD94582.1 14330 19687 163 495 19688 484 CVD41050.1 14332 19689 163 496 19690 306 CVD28932.1 14334 19691 163 497 19692 484 CVC37080.1 14336 19693 163 498 19694 484 CVE33508.1 14338 19695 163 499 19696 306 CVC40354.1 14340 19697 163 500 19698 306 CVE27819.1 14342 19699 163 501 19700 484 CVE60700.1 14344 19701 163 502 19702 306 CVE69177.1 14346 19703 163 503 19704 484 CVE06156.1 14348 19705 163 504 19706 484 CVE70674.1 14350 19707 163 505 19708 484 CVD68135.1 14352 19709 163 506 19710 484 CVE19607.1 14354 19711 163 507 19712 484 CVE94911.1 14356 19713 163 508 19714 484 CVE74015.1 14358 19715 163 509 19716 484 CVE69277.1 14360 19717 163 510 19718 484 CVD84064.1 14362 19719 163 511 19720 484 CVE29091.1 14364 19721 163 512 19722 484 CVD89467.1 14366 19723 163 513 19724 306 CVE62900.1 14368 19725 163 514 19726 484 CVE95691.1 14370 19727 163 515 19728 484 CVF11375.1 14372 19729 163 516 19730 484 CVF28649.1 14374 19731 163 517 19732 484 CVC97390.1 14376 19733 163 518 19734 484 CVD52643.1 14378 19735 163 519 19736 484 CVE22758.1 14380 19737 163 520 19738 484 CVE97454.1 14382 19739 163 521 19740 484 CVF28158.1 14384 19741 163 522 19742 484 CVE60533.1 14386 19743 163 523 19744 484 CVE66058.1 14388 19745 163 524 19746 484 CVF01477.1 14390 19747 163 525 19748 484 CVE93253.1 14392 19749 163 526 19750 484 CVF50134.1 14394 19751 163 527 19752 306 CVF09910.1 14396 19753 163 528 19754 484 CVE63411.1 14398 19755 163 529 19756 484 CVE05444.1 14400 19757 163 530 19758 484 CVE67662.1 14402 19759 163 531 19760 484 CVE73566.1 14404 19761 163 532 19762 484 CVF13064.1 14406 19763 163 533 19764 484 CVE92994.1 14408 19765 163 534 19766 484 CVF15667.1 14410 19767 163 535 19768 484 CVE70361.1 14412 19769 163 536 19770 484 CVF77810.1 14414 19771 163 537 19772 484 CVF08046.1 14416 19773 163 538 19774 484 CVF84133.1 14418 19775 163 539 19776 484 CVF82137.1 14420 19777 163 540 19778 484 CVG26701.1 14422 19779 163 541 19780 484 CVG63887.1 14424 19781 163 542 19782 484 CVG49433.1 14426 19783 163 543 19784 484 CVF96091.1 14428 19785 163 544 19786 484 CVG60811.1 14430 19787 163 545 19788 484 CVG18576.1 14432 19789 163 546 19790 484 CVG60263.1 14434 19791 163 547 19792 484 CVG00271.1 14436 19793 163 548 19794 484 CVG18115.1 14438 19795 163 549 19796 484 CVG66394.1 14440 19797 163 550 19798 306 CVF82722.1 14442 19799 163 551 19800 484 CVG27190.1 14444 19801 163 552 19802 484 CVH08322.1 14446 19803 163 553 19804 306 CVG82345.1 14448 19805 163 554 19806 484 CVG89971.1 14450 19807 163 555 19808 484 CVG75193.1 14452 19809 163 556 19810 484 CVG91902.1 14454 19811 163 557 19812 484 CVG61740.1 14456 19813 163 558 19814 484 CVG55691.1 14458 19815 163 559 19816 484 CVG99595.1 14460 19817 163 560 19818 484 CVG85863.1 14462 19819 163 561 19820 484 CVH13264.1 14464 19821 163 562 19822 484 CVH22072.1 14466 19823 163 563 19824 484 CVG79637.1 14468 19825 163 564 19826 484 CVH31713.1 14470 19827 163 565 19828 484 CVG61487.1 14472 19829 163 566 19830 484 CVF47762.1 14474 19831 163 567 19832 484 CVH23246.1 14476 19833 163 568 19834 484 CVG86968.1 14478 19835 163 569 19836 484 CVG92546.1 14480 19837 163 570 19838 484 CVH34063.1 14482 19839 163 571 19840 465 CVG73755.1 14484 19841 163 572 19842 484 CVH31045.1 14486 19843 163 573 19844 484 CVH30700.1 14488 19845 163 574 19846 484 CVG97923.1 14490 19847 163 575 19848 484 CVH42939.1 14492 19849 163 576 19850 484 CVH11711.1 14494 19851 163 577 19852 484 CVH39720.1 14496 19853 163 578 19854 484 CVH33846.1 14498 19855 163 579 19856 484 CVG91297.1 14500 19857 163 580 19858 484 CVH37749.1 14502 19859 163 581 19860 484 CVH21011.1 14504 19861 163 582 19862 484 CVG01680.1 14506 19863 163 583 19864 484 CVH35255.1 14508 19865 163 584 19866 484 CVH07271.1 14510 19867 163 585 19868 484 CVH30938.1 14512 19869 163 586 19870 484 CVH50697.1 14514 19871 163 587 19872 484 CVH40526.1 14516 19873 163 588 19874 484 CVH64630.1 14518 19875 163 589 19876 484 CVH70543.1 14520 19877 163 590 19878 484 CVH72213.1 14522 19879 163 591 19880 484 CVH65593.1 14524 19881 163 592 19882 593 CVJ13862.1 14526 19883 505 593 19884 479 CVJ11186.1 14528 19885 166 CVJ11217.1 14529 19886 257 594 19887 335 CVJ34976.1 14531 19888 293 595 19889 486 CWV39708.1 14533 19890 202 596 19891 486 CWW37521.1 14535 19892 202 597 19893 469 CYO51346.1 14537 19894 206 CYO51297.1 14538 19895 388 598 19896 468 CYT98226.1 14540 19897 156 599 19898 469 CZB11023.1 14542 19899 206 CZB10962.1 14543 19900 382 600 19901 469 CZB35760.1 14545 19902 206 CZB35774.1 14546 19903 382 601 19904 125 CZD24096.1 14548 19905 184 602 19906 125 CZC77665.1 14550 19907 184 603 19908 125 CZD72514.1 14552 19909 184 604 19910 125 CZE23710.1 14554 19911 184 605 19912 473 CAW93166.1 14556 19913 165 606 19914 345 CBK94113.1 14558 19915 260 607 19916 483 CCE59806.1 14560 19917 202 CCE59807.1 14561 19918 362 608 19919 472 CDD80087.1 14563 19920 166 CDD80084.1 14564 19921 196 609 19922 472 EEG72545.1 14566 19923 203 610 19924 424 EEP27314.1 14568 19925 163 EEP27315.1 14569 19926 189 EEP27316.1 14570 19927 376 611 19928 475 EEI83076.1 14572 19929 205 612 19930 478 EEV44994.1 14574 19931 161 EEV44996.1 14575 19932 283 613 19933 485 EES71590.1 14577 19934 227 614 19935 471 EEY94493.1 14579 19936 231 EEY94495.1 14580 19937 194 615 19938 478 EFS10289.1 14582 19939 161 EFS10291.1 14583 19940 283 616 19941 478 EGF19708.1 14585 19942 206 EGF19710.1 14586 19943 388 617 19944 476 EGK00062.1 14588 19945 203 EGK00061.1 14589 19946 191 618 19947 1379 CCH29380.1 14591 19948 404 619 19949 473 CCN04568.1 14593 19950 146 620 19951 484 CDG13495.1 14595 19952 144 621 19953 485 CDH26047.1 14597 19954 196 622 19955 478 EZP94705.1 14599 19956 161 EZP94707.1 14600 19957 283 623 19958 478 EZP99084.1 14602 19959 161 EZP99086.1 14603 19960 283 624 19961 478 EZP92277.1 14605 19962 161 EZP92279.1 14606 19963 283 625 19964 479 ETZ11574.1 14608 19965 163 626 19966 480 KER34864.1 14610 19967 155 627 19968 245 EWC94440.1 14612 19969 376 628 19970 503 KYF75626.1 14614 19971 956 629 19972 1686 KYF75481.1 14616 19973 953 630 19974 482 EXE88612.1 14618 19975 199 EXE88616.1 14619 19976 165 EXE88611.1 14620 19977 166 631 19980 434 KDN27531.1 14624 19981 271 632 19982 482 KEC78310.1 14626 19983 158 KEC78315.1 14627 19984 161 633 19985 473 KDC94657.1 14629 19986 146 634 19987 476 EGY80389.1 14631 19988 99 635 19989 508 EHI41039.1 14633 19990 377 636 19991 487 EHI61290.1 14635 19992 239 637 19993 481 EHP50821.1 14637 19994 163 EHP50818.1 14638 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EZR85550.1 14773 20130 202 EZR85551.1 14774 20131 308 687 20132 483 EZR86480.1 14776 20133 202 EZR86481.1 14777 20134 308 688 20135 483 EZR91405.1 14779 20136 202 EZR91406.1 14780 20137 308 689 20138 375 EZR97098.1 14782 20139 202 EZR97099.1 14783 20140 308 690 20141 483 EZR91806.1 14785 20142 202 EZR91807.1 14786 20143 308 691 20144 483 EZS01236.1 14788 20145 202 EZS01237.1 14789 20146 308 692 20147 483 EZR98551.1 14791 20148 202 EZR98552.1 14792 20149 308 693 20150 483 EZS03611.1 14794 20151 202 EZS03612.1 14795 20152 308 694 20153 483 EZS03315.1 14797 20154 202 EZS03316.1 14798 20155 308 695 20156 483 EZS19478.1 14800 20157 202 EZS19479.1 14801 20158 308 696 20159 483 EZS08902.1 14803 20160 202 EZS08903.1 14804 20161 308 697 20162 483 EZS11742.1 14806 20163 202 EZS11743.1 14807 20164 308 698 20165 483 EZS15733.1 14809 20166 202 EZS15734.1 14810 20167 308 699 20168 483 EZS17714.1 14812 20169 202 EZS17715.1 14813 20170 308 700 20171 483 EZS22503.1 14815 20172 202 EZS22504.1 14816 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EZT00069.1 14905 20262 202 EZT00070.1 14906 20263 308 731 20264 483 EZT04299.1 14908 20265 202 EZT04300.1 14909 20266 308 732 20267 483 EZT04245.1 14911 20268 202 EZT04246.1 14912 20269 308 733 20270 483 EZT06688.1 14914 20271 202 EZT06689.1 14915 20272 308 734 20273 483 EZT09550.1 14917 20274 202 EZT09551.1 14918 20275 308 735 20276 483 EZT09959.1 14920 20277 202 EZT09960.1 14921 20278 308 736 20279 483 EZT16278.1 14923 20280 202 EZT16279.1 14924 20281 308 737 20282 483 EZT18986.1 14926 20283 202 EZT18987.1 14927 20284 308 738 20285 483 EZT18345.1 14929 20286 202 EZT18346.1 14930 20287 308 739 20288 483 EZT23521.1 14932 20289 202 EZT23522.1 14933 20290 308 740 20291 483 EZT25330.1 14935 20292 202 EZT25331.1 14936 20293 308 741 20294 375 EZT27372.1 14938 20295 202 EZT27373.1 14939 20296 308 742 20297 483 EZT32066.1 14941 20298 202 EZT32067.1 14942 20299 308 743 20300 483 EZT32805.1 14944 20301 202 EZT32806.1 14945 20302 308 744 20303 483 EZT35385.1 14947 20304 202 EZT35386.1 14948 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310 795 20441 484 KFB55437.1 15085 20442 163 796 20443 484 KFF79467.1 15087 20444 163 797 20445 475 KFF62083.1 15089 20446 205 KFF62085.1 15090 20447 200 KFF62086.1 15091 20448 395 798 20450 486 KTA63995.1 15094 20451 202 799 20452 466 KNE78571.1 15096 20453 214 800 20454 477 KFK51886.1 15098 20455 165 KFK51888.1 15099 20456 225 801 20457 482 KGA25875.1 15101 20458 200 802 20459 602 KGN93840.1 15103 20460 391 803 20461 478 KGK75436.1 15105 20462 161 KGK75438.1 15106 20463 283 804 20464 471 KGF38952.1 15108 20465 203 KGF38954.1 15109 20466 182 805 20467 473 KHD43838.1 15111 20468 166 806 20469 478 KGQ80277.1 15113 20470 161 KGQ80279.1 15114 20471 283 807 20472 211 KIE90700.1 15116 20473 165 KIE90687.1 15117 20474 214 808 20475 307 KIE90615.1 15119 20476 165 KIE90604.1 15120 20477 214 809 20478 307 KIE97297.1 15122 20479 165 KIE97287.1 15123 20480 214 810 20481 307 KIE97677.1 15125 20482 165 KIE97674.1 15126 20483 214 811 20484 307 KIE96205.1 15128 20485 165 KIE96201.1 15129 20486 214 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EOG17545.1 15222 20579 161 EOG17543.1 15223 20580 283 848 20581 478 EOG17726.1 15225 20582 161 EOG17728.1 15226 20583 283 849 20584 478 EOG29142.1 15228 20585 161 EOG29140.1 15229 20586 283 850 20587 478 EOM31820.1 15231 20588 161 EOM31822.1 15232 20589 283 851 20590 491 EOQ01915.1 15234 20591 202 852 20592 473 EOT43558.1 15236 20593 165 853 20594 473 EOW87388.1 15238 20595 165 854 20596 482 EPD26425.1 15240 20597 217 EPD26427.1 15241 20598 167 EPD26426.1 15242 20599 187 855 20600 482 EPI22404.1 15244 20601 217 856 20602 478 EQN31626.1 15246 20603 203 857 20604 478 EQO47877.1 15248 20605 203 858 20606 482 EQO88545.1 15250 20607 166 859 20608 482 EQS52096.1 15252 20609 166 860 20610 482 EQX21242.1 15254 20611 166 861 20612 488 ERK54361.1 15256 20613 167 862 20614 487 ERW54757.1 15258 20615 167 ERW54755.1 15259 20616 304 863 20617 487 ERW94008.1 15261 20618 167 ERW94010.1 15262 20619 304 864 20620 469 ETD07629.1 15264 20621 206 ETD07627.1 15265 20622 388 865 20623 478 ETU12931.1 15267 20624 161 ETU12933.1 15268 20625 283 866 20626 484 ETX46916.1 15270 20627 163 867 20628 475 EXX84013.1 15272 20629 228 868 20630 484 EZQ69340.1 15274 20631 163 869 20632 483 EZU15806.1 15276 20633 202 EZU15807.1 15277 20634 308 870 20635 483 EZU14923.1 15279 20636 202 EZU14924.1 15280 20637 308 871 20638 483 EZU22367.1 15282 20639 202 EZU22368.1 15283 20640 308 872 20641 483 EZU24875.1 15285 20642 202 EZU24876.1 15286 20643 308 873 20644 483 EZU30072.1 15288 20645 202 EZU30073.1 15289 20646 308 874 20647 483 EZU33074.1 15291 20648 202 EZU33075.1 15292 20649 308 875 20650 483 EZU39421.1 15294 20651 202 EZU39422.1 15295 20652 308 876 20653 483 EZU35475.1 15297 20654 202 EZU35476.1 15298 20655 308 877 20656 483 EZU41789.1 15300 20657 202 EZU41790.1 15301 20658 308 878 20659 483 EZU42122.1 15303 20660 202 EZU42123.1 15304 20661 308 879 20662 483 EZU46567.1 15306 20663 202 EZU46568.1 15307 20664 308 880 20665 483 EZU46768.1 15309 20666 202 EZU46769.1 15310 20667 308 881 20668 483 EZU48613.1 15312 20669 202 EZU48614.1 15313 20670 308 882 20671 483 EZU52016.1 15315 20672 202 EZU52017.1 15316 20673 308 883 20674 483 EZU55225.1 15318 20675 202 EZU55226.1 15319 20676 308 884 20677 483 EZU56166.1 15321 20678 202 EZU56167.1 15322 20679 308 885 20680 483 EZU61335.1 15324 20681 202 EZU61336.1 15325 20682 308 886 20683 483 EZU65298.1 15327 20684 202 EZU65299.1 15328 20685 308 887 20686 483 EZU73660.1 15330 20687 202 EZU73661.1 15331 20688 308 888 20689 483 EZU80185.1 15333 20690 202 EZU80186.1 15334 20691 308 889 20692 483 EZU80947.1 15336 20693 202 EZU80948.1 15337 20694 308 890 20695 483 EZU82979.1 15339 20696 202 EZU82980.1 15340 20697 308 891 20698 483 EZU87060.1 15342 20699 202 EZU87061.1 15343 20700 308 892 20701 483 EZU88263.1 15345 20702 202 EZU88264.1 15346 20703 308 893 20704 483 EZU90292.1 15348 20705 202 EZU90293.1 15349 20706 308 894 20707 483 EZU94766.1 15351 20708 202 EZU94767.1 15352 20709 308 895 20710 483 EZU96099.1 15354 20711 202 EZU96100.1 15355 20712 308 896 20713 483 EZV02406.1 15357 20714 202 EZV02407.1 15358 20715 308 897 20716 375 EZV09966.1 15360 20717 202 EZV09967.1 15361 20718 308 898 20719 483 EZV11273.1 15363 20720 202 EZV11274.1 15364 20721 308 899 20722 483 EZV17196.1 15366 20723 202 EZV17197.1 15367 20724 308 900 20725 483 EZV18373.1 15369 20726 202 EZV18374.1 15370 20727 308 901 20728 483 EZV22689.1 15372 20729 202 EZV22690.1 15373 20730 308 902 20731 483 EZV23633.1 15375 20732 202 EZV23634.1 15376 20733 308 903 20734 483 EZV30019.1 15378 20735 202 EZV30020.1 15379 20736 308 904 20737 483 EZV34238.1 15381 20738 202 EZV34239.1 15382 20739 308 905 20740 483 EZV37877.1 15384 20741 202 EZV37878.1 15385 20742 308 906 20743 483 EZV41497.1 15387 20744 202 EZV41498.1 15388 20745 308 907 20746 483 EZV40171.1 15390 20747 202 EZV40172.1 15391 20748 308 908 20749 483 EZV45689.1 15393 20750 202 EZV45690.1 15394 20751 308 909 20752 483 EZV49481.1 15396 20753 202 EZV49482.1 15397 20754 308 910 20755 483 EZV51741.1 15399 20756 202 EZV51742.1 15400 20757 308 911 20758 483 EZV56159.1 15402 20759 202 EZV56160.1 15403 20760 308 912 20761 483 EZV60059.1 15405 20762 202 EZV60060.1 15406 20763 308 913 20764 483 EZV56177.1 15408 20765 202 EZV56178.1 15409 20766 308 914 20767 483 EZV62993.1 15411 20768 202 EZV62994.1 15412 20769 308 915 20770 375 EZV68411.1 15414 20771 202 EZV68412.1 15415 20772 308 916 20773 483 EZV73437.1 15417 20774 202 EZV73438.1 15418 20775 308 917 20776 483 EZV79300.1 15420 20777 202 EZV79301.1 15421 20778 308 918 20779 483 EZV78172.1 15423 20780 202 EZV78173.1 15424 20781 308 919 20782 483 EZV80244.1 15426 20783 202 EZV80245.1 15427 20784 308 920 20785 483 EZV86031.1 15429 20786 202 EZV86032.1 15430 20787 308 921 20788 483 EZV85083.1 15432 20789 202 EZV85084.1 15433 20790 308 922 20791 483 EZV88943.1 15435 20792 202 EZV88944.1 15436 20793 308 923 20794 483 EZV92665.1 15438 20795 202 EZV92666.1 15439 20796 308 924 20797 483 EZV94446.1 15441 20798 202 EZV94447.1 15442 20799 308 925 20800 483 EZV97124.1 15444 20801 202 EZV97125.1 15445 20802 308 926 20803 483 EZV98955.1 15447 20804 202 EZV98956.1 15448 20805 308 927 20806 483 EZW01626.1 15450 20807 202 EZW01627.1 15451 20808 308 928 20809 483 EZW04544.1 15453 20810 202 EZW04545.1 15454 20811 308 929 20812 483 EZW06683.1 15456 20813 202 EZW06684.1 15457 20814 308 930 20815 483 EZW08826.1 15459 20816 202 EZW08827.1 15460 20817 308 931 20818 483 EZW10958.1 15462 20819 202 EZW10959.1 15463 20820 308 932 20821 483 EZW14697.1 15465 20822 202 EZW14698.1 15466 20823 308 933 20824 483 EZW17374.1 15468 20825 202 EZW17375.1 15469 20826 308 934 20827 483 EZW21155.1 15471 20828 202 EZW21156.1 15472 20829 308 935 20830 483 EZW24845.1 15474 20831 202 EZW24846.1 15475 20832 308 936 20833 483 EZW30607.1 15477 20834 202 EZW30608.1 15478 20835 308 937 20836 483 EZW29482.1 15480 20837 202 EZW29483.1 15481 20838 308 938 20839 483 EZW34091.1 15483 20840 202 EZW34092.1 15484 20841 308 939 20842 483 EZW34358.1 15486 20843 202 EZW34359.1 15487 20844 308 940 20845 483 EZW38690.1 15489 20846 202 EZW38691.1 15490 20847 308 941 20848 483 EZW42267.1 15492 20849 202 EZW42268.1 15493 20850 308 942 20851 483 EZW41571.1 15495 20852 202 EZW41572.1 15496 20853 308 943 20854 483 EZW45922.1 15498 20855 202 EZW45923.1 15499 20856 308 944 20857 483 EZW48564.1 15501 20858 202 EZW48565.1 15502 20859 308 945 20860 483 EZW51954.1 15504 20861 202 EZW51955.1 15505 20862 308 946 20863 483 EZW52895.1 15507 20864 202 EZW52896.1 15508 20865 308 947 20866 483 EZW54602.1 15510 20867 202 EZW54603.1 15511 20868 308 948 20869 483 EZW61226.1 15513 20870 202 EZW61227.1 15514 20871 308 949 20872 483 EZW59347.1 15516 20873 202 EZW59348.1 15517 20874 308 950 20875 483 EZW64573.1 15519 20876 202 EZW64574.1 15520 20877 308 951 20878 493 EZW67817.1 15522 20879 202 EZW67818.1 15523 20880 308 952 20881 483 EZW72064.1 15525 20882 202 EZW72065.1 15526 20883 308 953 20884 483 EZW73743.1 15528 20885 202 EZW73744.1 15529 20886 308 954 20887 483 EZW78365.1 15531 20888 202 EZW78366.1 15532 20889 308 955 20890 483 EZW78066.1 15534 20891 202 EZW78067.1 15535 20892 308 956 20893 483 EZW85423.1 15537 20894 202 EZW85424.1 15538 20895 308 957 20896 483 EZW86267.1 15540 20897 202 EZW86268.1 15541 20898 308 958 20899 483 EZW90699.1 15543 20900 202 EZW90700.1 15544 20901 308 959 20902 483 EZW93346.1 15546 20903 202 EZW93347.1 15547 20904 308 960 20905 483 EZW94210.1 15549 20906 202 EZW94211.1 15550 20907 308 961 20908 483 EZW97013.1 15552 20909 202 EZW97014.1 15553 20910 308 962 20911 483 EZX00537.1 15555 20912 202 EZX00538.1 15556 20913 308 963 20914 483 EZX02275.1 15558 20915 202 EZX02276.1 15559 20916 308 964 20917 483 EZX04398.1 15561 20918 202 EZX04399.1 15562 20919 308 965 20920 483 EZX08870.1 15564 20921 202 EZX08871.1 15565 20922 308 966 20923 483 EZX10606.1 15567 20924 202 EZX10607.1 15568 20925 308 967 20926 483 EZX16968.1 15570 20927 202 EZX16969.1 15571 20928 308 968 20929 483 EZX19508.1 15573 20930 202 EZX19509.1 15574 20931 308 969 20932 483 EZX23728.1 15576 20933 202 EZX23729.1 15577 20934 308 970 20935 483 EZX26909.1 15579 20936 202 EZX26910.1 15580 20937 308 971 20938 483 EZX30318.1 15582 20939 202 EZX30319.1 15583 20940 308 972 20941 375 EZX30778.1 15585 20942 202 EZX30779.1 15586 20943 308 973 20944 375 EZX33809.1 15588 20945 202 EZX33810.1 15589 20946 308 974 20947 375 EZX38405.1 15591 20948 202 EZX38406.1 15592 20949 308 975 20950 483 EZX39862.1 15594 20951 202 EZX39863.1 15595 20952 308 976 20953 493 EZX38522.1 15597 20954 202 EZX38523.1 15598 20955 308 977 20956 493 EZX45513.1 15600 20957 202 EZX45514.1 15601 20958 308 978 20959 483 EZX46728.1 15603 20960 202 EZX46729.1 15604 20961 72 979 20962 483 EZX48303.1 15606 20963 202 EZX48304.1 15607 20964 308 980 20965 483 EZX53233.1 15609 20966 202 EZX53234.1 15610 20967 308 981 20968 375 EZX53547.1 15612 20969 202 EZX53548.1 15613 20970 308 982 20971 483 EZX56514.1 15615 20972 202 EZX56515.1 15616 20973 308 983 20974 483 EZX60546.1 15618 20975 202 EZX60547.1 15619 20976 308 984 20977 483 EZX62510.1 15621 20978 202 EZX62511.1 15622 20979 308 985 20980 375 EZX64342.1 15624 20981 202 EZX64343.1 15625 20982 308 986 20983 483 EZX67970.1 15627 20984 202 EZX67971.1 15628 20985 308 987 20986 483 EZX70981.1 15630 20987 202 EZX70982.1 15631 20988 308 988 20989 483 EZX70897.1 15633 20990 202 EZX70898.1 15634 20991 308 989 20992 483 EZX78543.1 15636 20993 202 EZX78544.1 15637 20994 308 990 20995 483 EZX83215.1 15639 20996 202 EZX83216.1 15640 20997 308 991 20998 483 EZX78166.1 15642 20999 202 EZX78167.1 15643 21000 308 992 21001 483 EZX83510.1 15645 21002 202 EZX83511.1 15646 21003 308 993 21004 483 EZX85562.1 15648 21005 202 EZX85563.1 15649 21006 308 994 21007 483 EZX88437.1 15651 21008 202 EZX88438.1 15652 21009 308 995 21010 483 EZX90792.1 15654 21011 202 EZX90793.1 15655 21012 308 996 21013 483 EZX93305.1 15657 21014 202 EZX93306.1 15658 21015 308 997 21016 483 EZX97300.1 15660 21017 202 EZX97301.1 15661 21018 308 998 21019 102 EZX98399.1 15663 21020 202 EZX98400.1 15664 21021 308 999 21022 483 EZY04104.1 15666 21023 202 EZY04105.1 15667 21024 308 1000 21025 483 EZY04546.1 15669 21026 202 EZY04547.1 15670 21027 308 1001 21028 483 EZY06600.1 15672 21029 202 EZY06601.1 15673 21030 308 1002 21031 483 EZY11330.1 15675 21032 202 EZY11331.1 15676 21033 308 1003 21034 483 EZY13790.1 15678 21035 202 EZY13791.1 15679 21036 308 1004 21037 483 EZY14130.1 15681 21038 202 EZY14131.1 15682 21039 295 1005 21040 483 EZY14214.1 15684 21041 202 EZY14215.1 15685 21042 308 1006 21043 483 EZY21812.1 15687 21044 202 EZY21813.1 15688 21045 308 1007 21046 483 EZY21672.1 15690 21047 202 EZY21673.1 15691 21048 308 1008 21049 131 EZY24517.1 15693 21050 202 EZY24518.1 15694 21051 308 1009 21052 483 EZY26571.1 15696 21053 202 EZY26572.1 15697 21054 308 1010 21055 483 EZY29471.1 15699 21056 202 EZY29472.1 15700 21057 308 1011 21058 483 EZY31972.1 15702 21059 202 EZY31973.1 15703 21060 308 1012 21061 483 EZY36826.1 15705 21062 202 EZY36827.1 15706 21063 308 1013 21064 483 EZY36639.1 15708 21065 202 EZY36640.1 15709 21066 308 1014 21067 483 EZY38134.1 15711 21068 202 EZY38135.1 15712 21069 308 1015 21070 483 EZY43512.1 15714 21071 202 EZY43513.1 15715 21072 308 1016 21073 375 EZY44864.1 15717 21074 202 EZY44865.1 15718 21075 308 1017 21076 483 EZY46957.1 15720 21077 202 EZY46958.1 15721 21078 308 1018 21079 483 EZY51215.1 15723 21080 202 EZY51216.1 15724 21081 308 1019 21082 375 EZY52186.1 15726 21083 202 EZY52187.1 15727 21084 308 1020 21085 375 EZY54361.1 15729 21086 202 EZY54362.1 15730 21087 308 1021 21088 375 EZY58961.1 15732 21089 202 EZY58962.1 15733 21090 308 1022 21091 483 EZY61859.1 15735 21092 202 EZY61860.1 15736 21093 308 1023 21094 483 EZY66172.1 15738 21095 202 EZY66173.1 15739 21096 308 1024 21097 483 EZY70309.1 15741 21098 202 EZY70310.1 15742 21099 308 1025 21100 483 EZY70615.1 15744 21101 202 EZY70616.1 15745 21102 308 1026 21103 483 EZY75194.1 15747 21104 202 EZY75195.1 15748 21105 308 1027 21106 483 EZY78993.1 15750 21107 202 EZY78994.1 15751 21108 308 1028 21109 483 EZY77810.1 15753 21110 202 EZY77811.1 15754 21111 308 1029 21112 483 EZY80411.1 15756 21113 202 EZY80412.1 15757 21114 308 1030 21115 483 EZY85271.1 15759 21116 202 EZY85272.1 15760 21117 308 1031 21118 483 EZY90747.1 15762 21119 202 EZY90748.1 15763 21120 308 1032 21121 483 EZY86731.1 15765 21122 202 EZY86732.1 15766 21123 308 1033 21124 483 EZY93708.1 15768 21125 202 EZY93709.1 15769 21126 308 1034 21127 483 EZY96335.1 15771 21128 202 EZY96336.1 15772 21129 308 1035 21130 232 EZY99135.1 15774 21131 202 EZY99136.1 15775 21132 308 1036 21133 483 EZZ00575.1 15777 21134 202 EZZ00576.1 15778 21135 308 1037 21136 232 EZZ04413.1 15780 21137 202 EZZ04414.1 15781 21138 308 1038 21139 483 EZZ04095.1 15783 21140 202 EZZ04096.1 15784 21141 308 1039 21142 375 EZZ07025.1 15786 21143 202 EZZ07026.1 15787 21144 308 1040 21145 483 EZZ11500.1 15789 21146 202 EZZ11501.1 15790 21147 308 1041 21148 483 EZZ12220.1 15792 21149 202 EZZ12221.1 15793 21150 165 1042 21151 483 EZZ13374.1 15795 21152 202 EZZ13375.1 15796 21153 308 1043 21154 483 EZZ20015.1 15798 21155 202 EZZ20016.1 15799 21156 261 1044 21157 483 EZZ20491.1 15801 21158 202 EZZ20492.1 15802 21159 308 1045 21160 483 EZZ22877.1 15804 21161 202 EZZ22878.1 15805 21162 308 1046 21163 483 EZZ27502.1 15807 21164 202 EZZ27503.1 15808 21165 308 1047 21166 483 EZZ27417.1 15810 21167 202 EZZ27418.1 15811 21168 308 1048 21169 483 EZZ33551.1 15813 21170 202 EZZ33552.1 15814 21171 308 1049 21172 483 EZZ35197.1 15816 21173 202 EZZ35198.1 15817 21174 308 1050 21175 483 EZZ38881.1 15819 21176 202 EZZ38882.1 15820 21177 308 1051 21178 483 EZZ42312.1 15822 21179 202 EZZ42313.1 15823 21180 308 1052 21181 483 EZZ43688.1 15825 21182 202 EZZ43689.1 15826 21183 308 1053 21184 483 EZZ46491.1 15828 21185 202 EZZ46492.1 15829 21186 308 1054 21187 483 EZZ50761.1 15831 21188 202 EZZ50762.1 15832 21189 308 1055 21190 483 EZZ51035.1 15834 21191 202 EZZ51036.1 15835 21192 308 1056 21193 483 EZZ53436.1 15837 21194 202 EZZ53437.1 15838 21195 308 1057 21196 483 EZZ62214.1 15840 21197 202 EZZ62215.1 15841 21198 308 1058 21199 483 EZZ58807.1 15843 21200 202 EZZ58808.1 15844 21201 308 1059 21202 483 EZZ63775.1 15846 21203 202 EZZ63776.1 15847 21204 308 1060 21205 375 EZZ66973.1 15849 21206 202 EZZ66974.1 15850 21207 308 1061 21208 483 EZZ65103.1 15852 21209 202 EZZ65104.1 15853 21210 308 1062 21211 483 EZZ70712.1 15855 21212 202 EZZ70713.1 15856 21213 308 1063 21214 483 EZZ73601.1 15858 21215 202 EZZ73602.1 15859 21216 308 1064 21217 483 EZZ75112.1 15861 21218 202 EZZ75113.1 15862 21219 308 1065 21220 483 EZZ75509.1 15864 21221 202 EZZ75510.1 15865 21222 308 1066 21223 483 EZZ82798.1 15867 21224 202 EZZ82799.1 15868 21225 308 1067 21226 483 EZZ83621.1 15870 21227 202 EZZ83622.1 15871 21228 308 1068 21229 483 EZZ82653.1 15873 21230 202 EZZ82654.1 15874 21231 308 1069 21232 483 EZZ89013.1 15876 21233 202 EZZ89014.1 15877 21234 308 1070 21235 483 EZZ92960.1 15879 21236 202 EZZ92961.1 15880 21237 308 1071 21238 483 EZZ92682.1 15882 21239 202 EZZ92683.1 15883 21240 308 1072 21241 483 EZZ95682.1 15885 21242 202 EZZ95683.1 15886 21243 308 1073 21244 483 KAA05375.1 15888 21245 202 KAA05376.1 15889 21246 308 1074 21247 483 KAA05542.1 15891 21248 202 KAA05543.1 15892 21249 308 1075 21250 483 KAA05951.1 15894 21251 202 KAA05952.1 15895 21252 308 1076 21253 483 KAA12998.1 15897 21254 202 KAA12999.1 15898 21255 308 1077 21256 483 KAA12391.1 15900 21257 202 KAA12392.1 15901 21258 308 1078 21259 483 KAA13617.1 15903 21260 202 KAA13618.1 15904 21261 308 1079 21262 483 KAA22641.1 15906 21263 202 KAA22642.1 15907 21264 308 1080 21265 483 KAA21031.1 15909 21266 202 KAA21032.1 15910 21267 308 1081 21268 483 KAA21280.1 15912 21269 202 KAA21281.1 15913 21270 308 1082 21271 483 KAA28468.1 15915 21272 202 KAA28469.1 15916 21273 308 1083 21274 483 KAA29976.1 15918 21275 202 KAA29977.1 15919 21276 308 1084 21277 483 KAA28569.1 15921 21278 202 KAA28570.1 15922 21279 308 1085 21280 483 KAA35384.1 15924 21281 202 KAA35385.1 15925 21282 308 1086 21283 483 KAA38913.1 15927 21284 202 KAA38914.1 15928 21285 308 1087 21286 483 KAA39460.1 15930 21287 202 KAA39461.1 15931 21288 308 1088 21289 483 KAA42952.1 15933 21290 202 KAA42953.1 15934 21291 308 1089 21292 483 KAA45223.1 15936 21293 202 KAA45224.1 15937 21294 308 1090 21295 483 KAA46799.1 15939 21296 202 KAA46800.1 15940 21297 308 1091 21298 483 KAA49911.1 15942 21299 202 KAA49912.1 15943 21300 308 1092 21301 483 KAA51794.1 15945 21302 202 KAA51795.1 15946 21303 308 1093 21304 483 KAA59414.1 15948 21305 202 KAA59415.1 15949 21306 308 1094 21307 483 KAA58405.1 15951 21308 202 KAA58406.1 15952 21309 308 1095 21310 483 KAA61960.1 15954 21311 202 KAA61961.1 15955 21312 308 1096 21313 483 KAA63550.1 15957 21314 202 KAA63551.1 15958 21315 308 1097 21316 483 KAA66138.1 15960 21317 202 KAA66139.1 15961 21318 308 1098 21319 483 KAA68222.1 15963 21320 202 KAA68223.1 15964 21321 308 1099 21322 483 KAA73511.1 15966 21323 202 KAA73512.1 15967 21324 308 1100 21325 483 KAA74078.1 15969 21326 202 KAA74079.1 15970 21327 308 1101 21328 483 KAA76196.1 15972 21329 202 KAA76197.1 15973 21330 308 1102 21331 483 KAA79420.1 15975 21332 202 KAA79421.1 15976 21333 308 1103 21334 483 KAA82178.1 15978 21335 202 KAA82179.1 15979 21336 308 1104 21337 483 KAA82199.1 15981 21338 202 KAA82200.1 15982 21339 308 1105 21340 483 KAA86321.1 15984 21341 202 KAA86322.1 15985 21342 308 1106 21343 483 KAA89638.1 15987 21344 202 KAA89639.1 15988 21345 308 1107 21346 483 KAA93202.1 15990 21347 202 KAA93203.1 15991 21348 308 1108 21349 483 KAA93401.1 15993 21350 202 KAA93402.1 15994 21351 308 1109 21352 483 KAA96431.1 15996 21353 202 KAA96432.1 15997 21354 308 1110 21355 483 KAB00567.1 15999 21356 202 KAB00568.1 16000 21357 308 1111 21358 483 KAB03845.1 16002 21359 202 KAB03846.1 16003 21360 308 1112 21361 483 KAB06656.1 16005 21362 202 KAB06657.1 16006 21363 308 1113 21364 483 KAB08920.1 16008 21365 202 KAB08921.1 16009 21366 308 1114 21367 483 KAB10430.1 16011 21368 202 KAB10431.1 16012 21369 308 1115 21370 483 KAB11614.1 16014 21371 202 KAB11615.1 16015 21372 308 1116 21373 483 KAB16348.1 16017 21374 202 KAB16349.1 16018 21375 308 1117 21376 483 KAB18687.1 16020 21377 202 KAB18688.1 16021 21378 308 1118 21379 483 KAB19933.1 16023 21380 202 KAB19934.1 16024 21381 308 1119 21382 483 KAB24078.1 16026 21383 202 KAB24079.1 16027 21384 308 1120 21385 483 KAB29325.1 16029 21386 202 KAB29326.1 16030 21387 308 1121 21388 483 KAB29475.1 16032 21389 202 KAB29476.1 16033 21390 308 1122 21391 483 KAB32010.1 16035 21392 202 KAB32011.1 16036 21393 308 1123 21394 483 KAB33823.1 16038 21395 202 KAB33824.1 16039 21396 308 1124 21397 483 KAB37791.1 16041 21398 202 KAB37792.1 16042 21399 308 1125 21400 483 KAB38130.1 16044 21401 202 KAB38131.1 16045 21402 308 1126 21403 483 KAB42665.1 16047 21404 202 KAB42666.1 16048 21405 308 1127 21406 483 KAB46001.1 16050 21407 202 KAB46002.1 16051 21408 308 1128 21409 483 KAB45739.1 16053 21410 202 KAB45740.1 16054 21411 308 1129 21412 483 KAB51675.1 16056 21413 202 KAB51676.1 16057 21414 308 1130 21415 483 KAB53191.1 16059 21416 202 KAB53192.1 16060 21417 308 1131 21418 483 KAB55782.1 16062 21419 202 KAB55783.1 16063 21420 308 1132 21421 483 KAB58080.1 16065 21422 202 KAB58081.1 16066 21423 308 1133 21424 483 KAB59417.1 16068 21425 202 KAB59418.1 16069 21426 308 1134 21427 131 KAB62991.1 16071 21428 202 KAB62992.1 16072 21429 308 1135 21430 483 KAB66107.1 16074 21431 202 KAB66108.1 16075 21432 308 1136 21433 131 KAB66872.1 16077 21434 202 KAB66873.1 16078 21435 308 1137 21436 483 KAB70774.1 16080 21437 202 KAB70775.1 16081 21438 308 1138 21439 483 KAB73062.1 16083 21440 202 KAB73063.1 16084 21441 308 1139 21442 483 KAB75148.1 16086 21443 202 KAB75149.1 16087 21444 308 1140 21445 483 KAB78036.1 16089 21446 202 KAB78037.1 16090 21447 308 1141 21448 483 KAB81591.1 16092 21449 202 KAB81592.1 16093 21450 308 1142 21451 483 KAB84385.1 16095 21452 202 KAB84386.1 16096 21453 308 1143 21454 483 KAB84692.1 16098 21455 202 KAB84693.1 16099 21456 308 1144 21457 483 KAB91414.1 16101 21458 202 KAB91415.1 16102 21459 308 1145 21460 483 KAB92904.1 16104 21461 202 KAB92905.1 16105 21462 308 1146 21463 483 KAB93615.1 16107 21464 202 KAB93616.1 16108 21465 308 1147 21466 483 KAB98473.1 16110 21467 202 KAB98474.1 16111 21468 308 1148 21469 483 KAB98434.1 16113 21470 202 KAB98435.1 16114 21471 308 1149 21472 483 KAC00307.1 16116 21473 202 KAC00308.1 16117 21474 308 1150 21475 483 KAC04035.1 16119 21476 202 KAC04036.1 16120 21477 308 1151 21478 483 KAC08056.1 16122 21479 202 KAC08057.1 16123 21480 308 1152 21481 483 KAC10253.1 16125 21482 202 KAC10254.1 16126 21483 308 1153 21484 483 KAC11814.1 16128 21485 202 KAC11815.1 16129 21486 308 1154 21487 483 KAC14779.1 16131 21488 202 KAC14780.1 16132 21489 308 1155 21490 483 KAC17656.1 16134 21491 202 KAC17657.1 16135 21492 308 1156 21493 131 KAC20375.1 16137 21494 202 KAC20376.1 16138 21495 308 1157 21496 483 KAC21944.1 16140 21497 202 KAC21945.1 16141 21498 308 1158 21499 483 KAC25276.1 16143 21500 202 KAC25277.1 16144 21501 308 1159 21502 483 KAC29149.1 16146 21503 202 KAC29150.1 16147 21504 308 1160 21505 483 KAC33552.1 16149 21506 202 KAC33553.1 16150 21507 308 1161 21508 483 KAC34155.1 16152 21509 202 KAC34156.1 16153 21510 308 1162 21511 131 KAC33239.1 16155 21512 202 KAC33240.1 16156 21513 308 1163 21514 483 KAC37670.1 16158 21515 202 KAC37671.1 16159 21516 308 1164 21517 131 KAC40878.1 16161 21518 202 KAC40879.1 16162 21519 308 1165 21520 483 KAC45124.1 16164 21521 202 KAC45125.1 16165 21522 308 1166 21523 483 KAC44747.1 16167 21524 202 KAC44748.1 16168 21525 308 1167 21526 483 KAC51537.1 16170 21527 202 KAC51538.1 16171 21528 308 1168 21529 483 KAC50573.1 16173 21530 202 KAC50574.1 16174 21531 308 1169 21532 483 KAC52442.1 16176 21533 202 KAC52443.1 16177 21534 308 1170 21535 483 KAC57901.1 16179 21536 202 KAC5 7902.1 16180 21537 308 1171 21538 483 KAC59265.1 16182 21539 202 KAC59266.1 16183 21540 308 1172 21541 483 KAC64900.1 16185 21542 202 KAC64901.1 16186 21543 308 1173 21544 483 KAC65214.1 16188 21545 202 KAC65215.1 16189 21546 308 1174 21547 483 KAC66577.1 16191 21548 202 KAC66578.1 16192 21549 308 1175 21550 483 KAC76249.1 16194 21551 202 KAC76250.1 16195 21552 308 1176 21553 483 KAC70674.1 16197 21554 202 KAC70675.1 16198 21555 308 1177 21556 131 KAC73888.1 16200 21557 202 KAC73889.1 16201 21558 308 1178 21559 131 KAC78735.1 16203 21560 202 KAC78736.1 16204 21561 308 1179 21562 483 KAC82510.1 16206 21563 202 KAC82511.1 16207 21564 308 1180 21565 483 KAC80330.1 16209 21566 202 KAC80331.1 16210 21567 308 1181 21568 483 KAC86157.1 16212 21569 202 KAC86158.1 16213 21570 308 1182 21571 483 KAC89252.1 16215 21572 202 KAC89253.1 16216 21573 308 1183 21574 483 KAC89179.1 16218 21575 202 KAC89180.1 16219 21576 308 1184 21577 483 KAC93842.1 16221 21578 202 KAC93843.1 16222 21579 308 1185 21580 483 KAC96628.1 16224 21581 202 KAC96629.1 16225 21582 308 1186 21583 483 KAC97651.1 16227 21584 202 KAC97652.1 16228 21585 308 1187 21586 483 KAD00062.1 16230 21587 202 KAD00063.1 16231 21588 308 1188 21589 483 KAD04304.1 16233 21590 202 KAD04305.1 16234 21591 308 1189 21592 483 KAD08150.1 16236 21593 202 KAD08151.1 16237 21594 308 1190 21595 483 KAD07873.1 16239 21596 202 KAD07874.1 16240 21597 308 1191 21598 483 KAD11426.1 16242 21599 202 KAD11427.1 16243 21600 308 1192 21601 483 KAD14194.1 16245 21602 202 KAD14195.1 16246 21603 308 1193 21604 483 KAD16931.1 16248 21605 202 KAD16932.1 16249 21606 308 1194 21607 483 KAD20110.1 16251 21608 202 KAD20111.1 16252 21609 308 1195 21610 483 KAD22450.1 16254 21611 202 KAD22451.1 16255 21612 308 1196 21613 483 KAD23851.1 16257 21614 202 KAD23852.1 16258 21615 308 1197 21616 483 KAD27440.1 16260 21617 202 KAD27441.1 16261 21618 308 1198 21619 483 KAD29133.1 16263 21620 202 KAD29134.1 16264 21621 308 1199 21622 483 KAD33181.1 16266 21623 202 KAD33182.1 16267 21624 308 1200 21625 483 KAD35156.1 16269 21626 202 KAD35157.1 16270 21627 308 1201 21628 483 KAD41137.1 16272 21629 202 KAD41138.1 16273 21630 308 1202 21631 483 KAD37495.1 16275 21632 202 KAD37496.1 16276 21633 308 1203 21634 483 KAD41936.1 16278 21635 202 KAD41937.1 16279 21636 308 1204 21637 483 KAD44773.1 16281 21638 202 KAD44774.1 16282 21639 308 1205 21640 483 KAD49430.1 16284 21641 202 KAD49431.1 16285 21642 308 1206 21643 483 KAD48761.1 16287 21644 202 KAD48762.1 16288 21645 308 1207 21646 483 KAD53923.1 16290 21647 202 KAD53924.1 16291 21648 308 1208 21649 483 KAD57263.1 16293 21650 202 KAD57264.1 16294 21651 308 1209 21652 483 KAD59396.1 16296 21653 202 KAD59397.1 16297 21654 308 1210 21655 483 KAD59588.1 16299 21656 202 KAD59589.1 16300 21657 308 1211 21658 483 KAD64093.1 16302 21659 202 KAD64094.1 16303 21660 308 1212 21661 483 KAD64969.1 16305 21662 202 KAD64970.1 16306 21663 308 1213 21664 483 KAD71130.1 16308 21665 202 KAD71131.1 16309 21666 308 1214 21667 483 KAD76142.1 16311 21668 202 KAD76143.1 16312 21669 308 1215 21670 483 KAD70467.1 16314 21671 202 KAD70468.1 16315 21672 308 1216 21673 483 KAD78843.1 16317 21674 202 KAD78844.1 16318 21675 308 1217 21676 483 KAD77328.1 16320 21677 202 KAD77329.1 16321 21678 308 1218 21679 483 KAD80655.1 16323 21680 202 KAD80656.1 16324 21681 308 1219 21682 483 KAD85220.1 16326 21683 202 KAD85221.1 16327 21684 308 1220 21685 483 KAD85660.1 16329 21686 202 KAD85661.1 16330 21687 308 1221 21688 483 KAD90245.1 16332 21689 202 KAD90246.1 16333 21690 308 1222 21691 483 KAD93692.1 16335 21692 202 KAD93693.1 16336 21693 308 1223 21694 483 KAD94379.1 16338 21695 202 KAD94380.1 16339 21696 308 1224 21697 483 KAD99174.1 16341 21698 202 KAD99175.1 16342 21699 308 1225 21700 483 KAD98840.1 16344 21701 202 KAD98841.1 16345 21702 308 1226 21703 131 KAD99161.1 16347 21704 202 KAD99162.1 16348 21705 308 1227 21706 131 KAE03355.1 16350 21707 202 KAE03356.1 16351 21708 308 1228 21709 483 KAE06089.1 16353 21710 202 KAE06090.1 16354 21711 308 1229 21712 483 KAE10341.1 16356 21713 202 KAE10342.1 16357 21714 308 1230 21715 483 KAE11830.1 16359 21716 202 KAE11831.1 16360 21717 308 1231 21718 483 KAE16056.1 16362 21719 202 KAE16057.1 16363 21720 308 1232 21721 483 KAE17678.1 16365 21722 202 KAE17679.1 16366 21723 308 1233 21724 483 KAE21312.1 16368 21725 202 KAE21313.1 16369 21726 308 1234 21727 483 KAE22704.1 16371 21728 202 KAE22705.1 16372 21729 308 1235 21730 483 KAE26216.1 16374 21731 202 KAE26217.1 16375 21732 308 1236 21733 483 KAE28379.1 16377 21734 202 KAE28380.1 16378 21735 308 1237 21736 483 KAE30965.1 16380 21737 202 KAE30966.1 16381 21738 308 1238 21739 483 KAE34714.1 16383 21740 202 KAE34715.1 16384 21741 308 1239 21742 483 KAE36915.1 16386 21743 202 KAE36916.1 16387 21744 308 1240 21745 483 KAE38767.1 16389 21746 202 KAE38768.1 16390 21747 308 1241 21748 483 KAE42474.1 16392 21749 202 KAE42475.1 16393 21750 308 1242 21751 483 KAE45133.1 16395 21752 202 KAE45134.1 16396 21753 308 1243 21754 131 KAE45864.1 16398 21755 202 KAE45865.1 16399 21756 308 1244 21757 131 KAE50289.1 16401 21758 202 KAE50290.1 16402 21759 308 1245 21760 483 KAE51869.1 16404 21761 202 KAE51870.1 16405 21762 308 1246 21763 483 KAE56031.1 16407 21764 202 KAE56032.1 16408 21765 308 1247 21766 483 KAE58617.1 16410 21767 202 KAE58618.1 16411 21768 308 1248 21769 483 KAE60713.1 16413 21770 202 KAE60714.1 16414 21771 308 1249 21772 483 KAE63795.1 16416 21773 202 KAE63796.1 16417 21774 308 1250 21775 483 KAE63592.1 16419 21776 202 KAE63593.1 16420 21777 308 1251 21778 483 KAE68674.1 16422 21779 202 KAE68675.1 16423 21780 308 1252 21781 483 KAE69668.1 16425 21782 202 KAE69669.1 16426 21783 308 1253 21784 483 KAE72489.1 16428 21785 202 KAE72490.1 16429 21786 308 1254 21787 483 KAE78482.1 16431 21788 202 KAE78483.1 16432 21789 308 1255 21790 483 KAE76734.1 16434 21791 202 KAE76735.1 16435 21792 308 1256 21793 483 KAE81549.1 16437 21794 202 KAE81550.1 16438 21795 308 1257 21796 483 KAE84895.1 16440 21797 202 KAE84896.1 16441 21798 308 1258 21799 483 KAE84989.1 16443 21800 202 KAE84990.1 16444 21801 308 1259 21802 483 KAE89402.1 16446 21803 202 KAE89403.1 16447 21804 308 1260 21805 483 KAE90294.1 16449 21806 202 KAE90295.1 16450 21807 308 1261 21808 483 KAE93400.1 16452 21809 202 KAE93401.1 16453 21810 308 1262 21811 483 KAE97231.1 16455 21812 202 KAE97232.1 16456 21813 308 1263 21814 483 KAE99812.1 16458 21815 202 KAE99813.1 16459 21816 308 1264 21817 483 KAE99885.1 16461 21818 202 KAE99886.1 16462 21819 308 1265 21820 483 KAF04814.1 16464 21821 202 KAF04815.1 16465 21822 308 1266 21823 483 KAF09787.1 16467 21824 202 KAF09788.1 16468 21825 308 1267 21826 483 KAF06946.1 16470 21827 202 KAF06947.1 16471 21828 308 1268 21829 483 KAF12147.1 16473 21830 202 KAF12148.1 16474 21831 308 1269 21832 375 KAF14359.1 16476 21833 202 KAF14360.1 16477 21834 308 1270 21835 483 KAF17948.1 16479 21836 202 KAF17949.1 16480 21837 308 1271 21838 483 KAF21047.1 16482 21839 202 KAF21048.1 16483 21840 308 1272 21841 483 KAF20974.1 16485 21842 202 KAF20975.1 16486 21843 308 1273 21844 483 KAF25641.1 16488 21845 202 KAF25642.1 16489 21846 308 1274 21847 483 KAF31106.1 16491 21848 202 KAF31107.1 16492 21849 308 1275 21850 483 KAF28012.1 16494 21851 202 KAF28013.1 16495 21852 308 1276 21853 483 KAF33772.1 16497 21854 202 KAF33773.1 16498 21855 308 1277 21856 483 KAF35728.1 16500 21857 202 KAF35729.1 16501 21858 308 1278 21859 483 KAF38653.1 16503 21860 202 KAF38654.1 16504 21861 308 1279 21862 483 KAF42880.1 16506 21863 202 KAF42881.1 16507 21864 308 1280 21865 483 KAF42844.1 16509 21866 202 KAF42845.1 16510 21867 308 1281 21868 483 KAF46907.1 16512 21869 202 KAF46908.1 16513 21870 308 1282 21871 483 KAF47441.1 16515 21872 202 KAF47442.1 16516 21873 308 1283 21874 131 KAF47998.1 16518 21875 202 KAF47999.1 16519 21876 308 1284 21877 483 KAF54047.1 16521 21878 202 KAF54048.1 16522 21879 308 1285 21880 483 KAF54412.1 16524 21881 202 KAF54413.1 16525 21882 308 1286 21883 483 KAF60184.1 16527 21884 202 KAF60185.1 16528 21885 308 1287 21886 483 KAF62545.1 16530 21887 202 KAF62546.1 16531 21888 308 1288 21889 483 KAF64110.1 16533 21890 202 KAF64111.1 16534 21891 308 1289 21892 483 KAF67902.1 16536 21893 202 KAF67903.1 16537 21894 308 1290 21895 483 KAF70711.1 16539 21896 202 KAF70712.1 16540 21897 308 1291 21898 483 KAF71813.1 16542 21899 202 KAF71814.1 16543 21900 308 1292 21901 483 KAF75588.1 16545 21902 202 KAF75589.1 16546 21903 308 1293 21904 483 KAF76889.1 16548 21905 202 KAF76890.1 16549 21906 308 1294 21907 483 KAF80457.1 16551 21908 202 KAF80458.1 16552 21909 308 1295 21910 483 KAF84646.1 16554 21911 202 KAF84647.1 16555 21912 308 1296 21913 483 KAF88484.1 16557 21914 202 KAF88485.1 16558 21915 308 1297 21916 483 KAF92872.1 16560 21917 202 KAF92873.1 16561 21918 308 1298 21919 483 KAF91776.1 16563 21920 202 KAF91777.1 16564 21921 308 1299 21922 483 KAG01059.1 16566 21923 202 KAG01060.1 16567 21924 308 1300 21925 131 KAF98700.1 16569 21926 202 KAF98701.1 16570 21927 308 1301 21928 131 KAF97454.1 16572 21929 202 KAF97455.1 16573 21930 308 1302 21931 483 KAG04153.1 16575 21932 202 KAG04154.1 16576 21933 308 1303 21934 483 KAG04818.1 16578 21935 202 KAG04819.1 16579 21936 308 1304 21937 483 KAG08554.1 16581 21938 202 KAG08555.1 16582 21939 308 1305 21940 483 KAG10679.1 16584 21941 202 KAG10680.1 16585 21942 308 1306 21943 483 KAG15999.1 16587 21944 202 KAG16000.1 16588 21945 308 1307 21946 483 KAG21724.1 16590 21947 202 KAG21725.1 16591 21948 308 1308 21949 483 KAG29028.1 16593 21950 202 KAG29029.1 16594 21951 308 1309 21952 483 KAG32268.1 16596 21953 202 KAG32269.1 16597 21954 308 1310 21955 483 KAG34709.1 16599 21956 202 KAG34710.1 16600 21957 308 1311 21958 483 KAG37985.1 16602 21959 202 KAG37986.1 16603 21960 308 1312 21961 483 KAG51660.1 16605 21962 202 KAG51661.1 16606 21963 308 1313 21964 483 KAG55491.1 16608 21965 202 KAG55492.1 16609 21966 308 1314 21967 483 KAG59144.1 16611 21968 202 KAG59145.1 16612 21969 308 1315 21970 483 KAG59706.1 16614 21971 202 KAG59707.1 16615 21972 308 1316 21973 483 KAG65357.1 16617 21974 202 KAG65358.1 16618 21975 308 1317 21976 483 KAG67526.1 16620 21977 202 KAG67527.1 16621 21978 308 1318 21979 483 KAG68213.1 16623 21980 202 KAG68214.1 16624 21981 308 1319 21982 483 KAG69691.1 16626 21983 202 KAG69692.1 16627 21984 308 1320 21985 483 KAG74734.1 16629 21986 202 KAG74735.1 16630 21987 308 1321 21988 483 KAG76837.1 16632 21989 202 KAG76838.1 16633 21990 308 1322 21991 483 KAG76106.1 16635 21992 202 KAG76107.1 16636 21993 308 1323 21994 483 KAG81174.1 16638 21995 202 KAG81175.1 16639 21996 308 1324 21997 483 KAG82428.1 16641 21998 202 KAG82429.1 16642 21999 308 1325 22000 483 KAG84390.1 16644 22001 202 KAG84391.1 16645 22002 308 1326 22003 483 KAG88851.1 16647 22004 202 KAG88852.1 16648 22005 308 1327 22006 483 KAG92814.1 16650 22007 202 KAG92815.1 16651 22008 308 1328 22009 483 KAG95313.1 16653 22010 202 KAG95314.1 16654 22011 308 1329 22012 483 KAH01281.1 16656 22013 202 KAH01282.1 16657 22014 308 1330 22015 483 KAH06867.1 16659 22016 202 KAH06868.1 16660 22017 308 1331 22018 483 KAH07512.1 16662 22019 202 KAH07513.1 16663 22020 308 1332 22021 483 KAH16051.1 16665 22022 202 KAH16052.1 16666 22023 308 1333 22024 483 KAH15236.1 16668 22025 202 KAH15237.1 16669 22026 308 1334 22027 483 KAH19615.1 16671 22028 202 KAH19616.1 16672 22029 308 1335 22030 483 KAH24555.1 16674 22031 202 KAH24556.1 16675 22032 308 1336 22033 483 KAH28156.1 16677 22034 202 KAH28157.1 16678 22035 308 1337 22036 483 KAH29213.1 16680 22037 202 KAH29214.1 16681 22038 308 1338 22039 483 KAH33222.1 16683 22040 202 KAH33223.1 16684 22041 308 1339 22042 483 KAH35671.1 16686 22043 202 KAH35672.1 16687 22044 308 1340 22045 483 KAH37680.1 16689 22046 202 KAH37681.1 16690 22047 308 1341 22048 483 KAH40128.1 16692 22049 202 KAH40129.1 16693 22050 308 1342 22051 483 KAH41310.1 16695 22052 202 KAH41311.1 16696 22053 308 1343 22054 483 KAH45886.1 16698 22055 202 KAH45887.1 16699 22056 308 1344 22057 483 KAH47352.1 16701 22058 202 KAH47353.1 16702 22059 308 1345 22060 483 KAH50034.1 16704 22061 202 KAH50035.1 16705 22062 308 1346 22063 483 KAH53956.1 16707 22064 202 KAH53957.1 16708 22065 308 1347 22066 483 KAH55296.1 16710 22067 202 KAH55297.1 16711 22068 308 1348 22069 483 KAH59145.1 16713 22070 202 KAH59146.1 16714 22071 308 1349 22072 483 KAH62177.1 16716 22073 202 KAH62178.1 16717 22074 308 1350 22075 483 KAH64793.1 16719 22076 202 KAH64794.1 16720 22077 308 1351 22078 483 KAH67713.1 16722 22079 202 KAH67714.1 16723 22080 308 1352 22081 483 KAH70234.1 16725 22082 202 KAH70235.1 16726 22083 308 1353 22084 483 KAH70951.1 16728 22085 202 KAH70952.1 16729 22086 308 1354 22087 483 KAH74940.1 16731 22088 202 KAH74941.1 16732 22089 308 1355 22090 483 KAH77219.1 16734 22091 202 KAH77220.1 16735 22092 308 1356 22093 483 KAH77146.1 16737 22094 202 KAH77147.1 16738 22095 308 1357 22096 483 KAH82034.1 16740 22097 202 KAH82035.1 16741 22098 308 1358 22099 131 KAH85415.1 16743 22100 202 KAH85416.1 16744 22101 308 1359 22102 483 KAH87603.1 16746 22103 202 KAH87604.1 16747 22104 308 1360 22105 483 KAH91092.1 16749 22106 202 KAH91093.1 16750 22107 308 1361 22108 483 KAH91683.1 16752 22109 202 KAH91684.1 16753 22110 308 1362 22111 483 KAH96190.1 16755 22112 202 KAH96191.1 16756 22113 308 1363 22114 483 KAH96015.1 16758 22115 202 KAH96016.1 16759 22116 308 1364 22117 483 KAI00776.1 16761 22118 202 KAI00777.1 16762 22119 308 1365 22120 483 KAI04124.1 16764 22121 202 KAI04125.1 16765 22122 308 1366 22123 483 KAI02995.1 16767 22124 202 KAI02996.1 16768 22125 308 1367 22126 483 KAI08746.1 16770 22127 202 KAI08747.1 16771 22128 308 1368 22129 483 KAI10608.1 16773 22130 202 KAI10609.1 16774 22131 308 1369 22132 483 KAI13048.1 16776 22133 202 KAI13049.1 16777 22134 308 1370 22135 483 KAI15460.1 16779 22136 202 KAI15461.1 16780 22137 308 1371 22138 375 KAI16286.1 16782 22139 202 KAI16287.1 16783 22140 308 1372 22141 483 KAI19039.1 16785 22142 202 KAI19040.1 16786 22143 308 1373 22144 483 KAI22532.1 16788 22145 202 KAI22533.1 16789 22146 308 1374 22147 375 KAI26856.1 16791 22148 202 KAI26857.1 16792 22149 308 1375 22150 375 KAI29883.1 16794 22151 202 KAI29884.1 16795 22152 308 1376 22153 483 KAI31278.1 16797 22154 202 KAI31279.1 16798 22155 308 1377 22156 483 KAI34384.1 16800 22157 202 KAI34385.1 16801 22158 308 1378 22159 483 KAI37684.1 16803 22160 202 KAI37685.1 16804 22161 308 1379 22162 483 KAI38931.1 16806 22163 202 KAI38932.1 16807 22164 308 1380 22165 483 KAI42592.1 16809 22166 202 KAI42593.1 16810 22167 308 1381 22168 483 KAI44806.1 16812 22169 202 KAI44807.1 16813 22170 308 1382 22171 483 KAI46180.1 16815 22172 202 KAI46181.1 16816 22173 308 1383 22174 483 KAI50312.1 16818 22175 202 KAI50313.1 16819 22176 308 1384 22177 483 KAI52599.1 16821 22178 202 KAI52600.1 16822 22179 308 1385 22180 483 KAI51893.1 16824 22181 202 KAI51894.1 16825 22182 308 1386 22183 483 KAI58510.1 16827 22184 202 KAI58511.1 16828 22185 308 1387 22186 483 KAI59068.1 16830 22187 202 KAI59069.1 16831 22188 308 1388 22189 375 KAI62092.1 16833 22190 202 KAI62093.1 16834 22191 308 1389 22192 483 KAI65036.1 16836 22193 202 KAI65037.1 16837 22194 308 1390 22195 483 KAI67114.1 16839 22196 202 KAI67115.1 16840 22197 72 1391 22198 483 KAI71115.1 16842 22199 202 KAI71116.1 16843 22200 72 1392 22201 483 KAI72296.1 16845 22202 202 KAI72297.1 16846 22203 308 1393 22204 483 KAI76026.1 16848 22205 202 KAI76027.1 16849 22206 308 1394 22207 483 KAI77489.1 16851 22208 202 KAI77490.1 16852 22209 308 1395 22210 483 KAI79405.1 16854 22211 202 KAI79406.1 16855 22212 308 1396 22213 483 KAI83419.1 16857 22214 202 KAI83420.1 16858 22215 308 1397 22216 483 KAF82850.1 16860 22217 202 KAF82851.1 16861 22218 308 1398 22219 487 KES25285.1 16863 22220 167 KES25283.1 16864 22221 183 1399 22222 487 KKB51169.1 16866 22223 160 KKB51171.1 16867 22224 186 1400 22225 481 KKB46311.1 16869 22226 163 KKB46308.1 16870 22227 181 1401 22228 478 KME80491.1 16872 22229 203 1402 22230 484 KMJ04348.1 16874 22231 163 1403 22232 480 KSU86124.1 16876 22233 202 1404 22234 484 KUR80454.1 16878 22235 165 KUR80452.1 16879 22236 184 KUR80451.1 16880 22237 259 1405 22238 476 KXT60078.1 16882 22239 207 1406 22240 477 KJP12012.1 16884 22241 146 KJP12010.1 16885 22242 161 1407 22243 486 KKO42007.1 16887 22244 202 1408 22245 480 KMQ31910.1 16889 22246 202 1409 22247 480 KMQ31455.1 16891 22248 202 1410 22249 480 KMQ31338.1 16893 22250 202 1411 22251 477 KMQ07577.1 16895 22252 226 1412 22253 488 KJU85604.1 16897 22254 162 1413 22255 475 KJS18753.1 16899 22256 160 KJS18754.1 16900 22257 228 1414 22258 478 KLD44467.1 16902 22259 203 1415 22260 481 KKZ08482.1 16904 22261 200 KKZ08481.1 16905 22262 191 1416 22263 479 KKX43504.1 16907 22264 209 1417 22265 478 KKJ66888.1 16909 22266 161 KKJ66890.1 16910 22267 283 1418 22268 480 KKR96939.1 16912 22269 168 KKR96941.1 16913 22270 393 1419 22271 484 KKZ15777.1 16915 22272 163 1420 22273 586 KLA35046.1 16917 22274 325 1421 22275 477 KLA36291.1 16919 22276 226 1422 22277 481 KLF79288.1 16921 22278 155 1423 22279 484 KLE38478.1 16923 22280 163 1424 22281 481 KMN72582.1 16925 22282 202 1425 22283 481 KMN78964.1 16927 22284 155 KMN78968.1 16928 22285 155 KMN78965.1 16929 22286 190 1426 22287 477 KOQ86135.1 16931 22288 146 KOQ86133.1 16932 22289 161 1427 22290 479 KOQ96627.1 16934 22291 205 KOQ96628.1 16935 22292 165 1428 22293 487 KXU94745.1 16937 22294 167 KXU94712.1 16938 22295 183 1429 22296 484 KMU49984.1 16940 22297 163 1430 22298 269 KMZ12178.1 16942 22299 103 KMZ12179.1 16943 22300 174 1431 22301 477 KMY27374.1 16945 22302 155 KMY27378.1 16946 22303 147 KMY27376.1 16947 22304 165 1432 22305 481 KOF39298.1 16949 22306 200 KOF39299.1 16950 22307 191 1433 22308 492 KPH74234.1 16952 22309 161 KPH74237.1 16953 22310 175 1434 22311 487 KPG99047.1 16955 22312 167 KPG99049.1 16956 22313 183 1435 22314 486 KUG12362.1 16958 22315 163 KUG12363.1 16959 22316 235 KUG12375.1 16960 22317 178 1436 22318 477 KPS74517.1 16962 22319 200 KPS74518.1 16963 22320 146 KPS74516.1 16964 22321 395 1437 22322 477 KPS95937.1 16966 22323 146 KPS95938.1 16967 22324 200 KPS95939.1 16968 22325 395 1438 22326 487 KPF70567.1 16970 22327 165 1439 22328 477 KQB82199.1 16972 22329 202 1440 22330 474 KQL33556.1 16974 22331 222 1441 22332 477 KPY89191.1 16976 22333 147 KPY89133.1 16977 22334 167 KPY89165.1 16978 22335 276 1442 22336 482 CDT62295.1 16980 22337 166 CDT62262.1 16981 22338 228 1443 22339 482 CDT49130.1 16983 22340 166 CDT49099.1 16984 22341 228 1444 22342 475 KTC51735.1 16986 22343 160 1445 22344 475 KTB70324.1 16988 22345 160 1446 22346 494 KTB90115.1 16990 22347 312 1447 22348 388 KTC03052.1 16992 22349 231 1448 22350 474 KRF62305.1 16994 22351 200 1449 22352 474 KSF14310.1 16996 22353 163 1450 22354 482 KSG00434.1 16998 22355 158 KSG00432.1 16999 22356 179 KSG00433.1 17000 22357 183 1451 22359 482 KSO26595.1 17003 22360 158 KSO26596.1 17004 22361 183 KSO26597.1 17005 22362 179 1452 22364 482 KSQ24405.1 17008 22365 158 KSQ24406.1 17009 22366 183 KSQ24407.1 17010 22367 179 1453 22369 487 KSQ18858.1 17013 22370 167 KSQ18860.1 17014 22371 183 1454 22372 501 KQV52822.1 17016 22373 158 1455 22374 596 KQW19001.1 17018 22375 370 1456 22376 480 KQN02370.1 17020 22377 158 1457 22378 476 KQS95551.1 17022 22379 205 KQS95550.1 17023 22380 174 1458 22381 334 KRE80989.1 17025 22382 318 1459 22383 240 CEA11437.1 17027 22384 156 1460 22385 240 CEA10433.1 17029 22386 156 1461 22387 307 CUU52510.1 17031 22388 165 CUU52511.1 17032 22389 214 1462 22390 482 KSX76370.1 17034 22391 166 1463 22392 478 KWY00932.1 17036 22393 161 KWY00934.1 17037 22394 283 1464 22395 478 KWY16708.1 17039 22396 161 KWY16706.1 17040 22397 283 1465 22398 478 KWY36997.1 17042 22399 161 KWY36995.1 17043 22400 283 1466 22401 329 KWY51063.1 17045 22402 161 1467 22403 314 KWY60249.1 17047 22404 161 1468 22405 478 KWY71635.1 17049 22406 161 1469 22407 478 KWY79779.1 17051 22408 161 KWY79777.1 17052 22409 283 1470 22410 478 KWY89824.1 17054 22411 114 1471 22412 478 KWY92723.1 17056 22413 161 KWY92721.1 17057 22414 283 1472 22415 478 KWY92991.1 17059 22416 161 KWY92993.1 17060 22417 283 1473 22418 478 KWY96006.1 17062 22419 161 KWY96008.1 17063 22420 283 1474 22421 478 KWZ06303.1 17065 22422 161 KWZ06305.1 17066 22423 283 1475 22424 489 KST54507.1 17068 22425 202 KST54506.1 17069 22426 344 1476 22427 477 KTD46364.1 17071 22428 163 1477 22429 479 KUO54663.1 17073 22430 155 1478 22431 500 KXY14128.1 17075 22432 206 1479 22433 126 KXQ35633.1 17077 22434 155 1480 22435 126 KXG66577.1 17079 22436 155 1481 22437 476 KVM18169.1 17081 22438 160 KVM18174.1 17082 22439 155 KVM18170.1 17083 22440 197 1482 22441 476 KVM22188.1 17085 22442 155 KVM22193.1 17086 22443 160 KVM22192.1 17087 22444 197 1483 22445 476 KVM54442.1 17089 22446 160 KVM54448.1 17090 22447 155 KVM54443.1 17091 22448 197 1484 22449 476 KVO16516.1 17093 22450 146 1485 22451 536 KVR44247.1 17095 22452 315 1486 22453 484 KVR99615.1 17097 22454 189 KVR99752.1 17098 22455 129 1487 22456 477 KVS07628.1 17100 22457 203 1488 22458 484 KVU94134.1 17102 22459 189 KVU94209.1 17103 22460 129 1489 22461 476 KVX54695.1 17105 22462 160 1490 22463 493 KWA77748.1 17107 22464 189 KWA77756.1 17108 22465 129 1491 22466 493 KWB32212.1 17110 22467 189 KWB32219.1 17111 22468 129 1492 22469 536 KWB80881.1 17113 22470 315 1493 22471 481 KTI37618.1 17115 22472 155 KTI37617.1 17116 22473 280 1494 22474 529 KTJ90667.1 17118 22475 323 1495 22476 481 KXM51395.1 17120 22477 155 1496 22478 481 KXM54362.1 17122 22479 155 1497 22480 481 KXM99994.1 17124 22481 155 1498 22482 478 KXH57775.1 17126 22483 161 KXH57777.1 17127 22484 283 1499 22485 482 KUS35847.1 17129 22486 166 1500 22487 482 KUT10060.1 17131 22488 166 1501 22489 481 KUT23042.1 17133 22490 155 1502 22491 482 KUT23266.1 17135 22492 166 1503 22493 482 KUT30719.1 17137 22494 166 1504 22495 481 KUT68248.1 17139 22496 155 1505 22497 481 KUU91588.1 17141 22498 155 1506 22499 482 KUX27114.1 17143 22500 166 1507 22501 481 KUQ77104.1 17145 22502 155 1508 22503 481 KUQ90477.1 17147 22504 155 1509 22505 477 KVX01472.1 17149 22506 147 1510 22507 481 KVK21769.1 17151 22508 155 1511 22509 103 KYQ15614.1 17153 22510 155 KYQ15615.1 17154 22511 192 1512 22512 103 KYQ10110.1 17156 22513 155 KYQ10109.1 17157 22514 192 1513 22515 103 KYQ13515.1 17159 22516 155 KYQ13514.1 17160 22517 192 1514 22518 103 KYQ20475.1 17162 22519 155 KYQ20476.1 17163 22520 192 1515 22521 487 KXA74274.1 17165 22522 239 1516 22523 1197 AAB91634.1 17167 22524 640 1517 22525 278 ABG41253.1 17169 22526 189 1518 22527 282 ACM32748.1 17171 22528 187 1519 22529 296 ACR72775.1 17173 22530 184 1520 22531 297 ACR74434.1 17175 22532 188 1521 22533 283 ADY24841.1 17177 22534 189 1522 22535 297 AFJ62118.1 17179 22536 156 1523 22537 278 AHC83881.1 17181 22538 187 1524 22539 278 AHC89252.1 17183 22540 187 1525 22541 285 AHJ13795.1 17185 22542 187 1526 22543 278 AIL63103.1 17187 22544 187 1527 22545 278 AIX52586.1 17189 22546 184 1528 22547 278 AIX76374.1 17191 22548 184 1529 22549 275 AJE78820.1 17193 22550 190 1530 22551 278 AKL33256.1 17195 22552 184 1531 22553 92 BAB73899.1 17197 22554 186 1532 22555 282 CAD16318.1 17199 22556 187 1533 22557 285 CBK39911.1 17201 22558 189 1534 22559 297 CCG49954.1 17203 22560 190 1535 22561 156 CDE97487.1 17205 22562 186 1536 22563 307 CDG89551.1 17207 22564 187 1537 22565 277 CDG92167.1 17209 22566 187 1538 22567 278 CDZ76666.1 17211 22568 187 1539 22569 278 CEE12404.1 17213 22570 187 1540 22571 282 CUJ73678.1 17215 22572 187 1541 22573 278 CVH06653.1 17217 22574 187 1542 22575 278 CVH45994.1 17219 22576 185 1543 22577 278 CZP78194.1 17221 22578 187 1544 22579 278 CZQ07179.1 17223 22580 187 1545 22581 282 EAZ59086.1 17225 22582 187 1546 22583 286 EEG71311.1 17227 22584 188 1547 22585 297 EEU99050.1 17229 22586 188 1548 22587 278 EHL32739.1 17231 22588 187 1549 22589 278 EHT09459.1 17233 22590 184 1550 22591 187 EJO27434.1 17235 22592 99 1551 22593 278 ENO98789.1 17237 22594 187 1552 22595 282 EPD37370.1 17239 22596 187 1553 22597 283 ERI11821.1 17241 22598 189 1554 22599 282 ERV92400.1 17243 22600 187 1555 22601 278 ESF54844.1 17245 22602 184 1556 22603 278 ESM46332.1 17247 22604 186 1557 22605 278 EUL65866.1 17249 22606 186 1558 22607 278 EUL69872.1 17251 22608 186 1559 22609 278 EWC39937.1 17253 22610 85 1560 22611 278 EXS68250.1 17255 22612 187 1561 22613 283 KEP24868.1 17257 22614 190 1562 22615 280 KFC21767.1 17259 22616 187 1563 22617 275 KFI14245.1 17261 22618 190 1564 22619 282 KFI74924.1 17263 22620 196 1565 22621 278 KHJ15950.1 17265 22622 184 1566 22623 278 KIZ39819.1 17267 22624 184 1567 22625 278 KJB99791.1 17269 22626 184 1568 22627 278 KJN38559.1 17271 22628 184 1569 22629 277 KJV39509.1 17273 22630 185 1570 22631 276 KML18442.1 17275 22632 190 1571 22633 276 KML61951.1 17277 22634 190 1572 22635 276 KMN31256.1 17279 22636 190 1573 22637 276 KMN70227.1 17281 22638 190 1574 22639 282 KOC82291.1 17283 22640 190 1575 22641 278 KOY23386.1 17285 22642 187 1576 22643 291 KQQ38325.1 17287 22644 185 1577 22645 282 KRG37250.1 17289 22646 187 1578 22647 282 KRG58644.1 17291 22648 187 1579 22649 278 KSC65529.1 17293 22650 187 1580 22651 282 KSQ38236.1 17295 22652 187 1581 22653 297 KSV97270.1 17297 22654 190 1582 22655 297 KSV97838.1 17299 22656 190 1583 22657 297 KTF62016.1 17301 22658 190 1584 22659 280 KUJ59694.1 17303 22660 188 1585 22661 292 KUR72679.1 17305 22662 186 1586 22663 278 KVL39771.1 17307 22664 187 1587 22665 285 KYG88424.1 17309 22666 187 1588 22667 278 ABG69916.1 17311 22668 287 1589 22669 278 CCQ05513.1 17313 22670 287 1590 22671 278 EZJ21711.1 17315 22672 307 1591 22673 278 EZJ42019.1 17317 22674 307 1592 22675 278 EZJ61190.1 17319 22676 307 1593 22677 278 KEJ12466.1 17321 22678 287 1594 22679 278 KEJ13625.1 17323 22680 287 1595 22681 278 KEJ33278.1 17325 22682 287 1596 22683 278 KEN34069.1 17327 22684 287 1597 22685 278 KEN41711.1 17329 22686 287 1598 22687 278 KEN74068.1 17331 22688 287 1599 22689 278 KKA59532.1 17333 22690 287 1600 22691 226 ABO13065.2 17335 22692 169 1601 22693 278 AGN81862.1 17337 22694 169 1602 22695 292 AKC78199.1 17339 22696 166 1603 22697 270 AMP74180.1 17341 22698 185 1604 22699 285 ENW63935.1 17343 22700 169 1605 22701 292 KJZ35757.1 17345 22702 166 1606 22703 292 KSM97146.1 17347 22704 166 1607 22705 285 KWX65127.1 17349 22706 169 1608 22707 278 KJX33868.1 17351 22708 169 1609 22709 278 EHW83929.1 17353 22710 169 1610 22711 278 EHX90141.1 17355 22712 169 1611 22713 278 EOW20699.1 17357 22714 169 1612 22715 278 EQT99521.1 17359 22716 169 1613 22717 278 ESE28057.1 17361 22718 148 1614 22719 278 KDA72452.1 17363 22720 169 1615 22721 278 KEJ24821.1 17365 22722 148 1616 22723 278 KEJ23492.1 17367 22724 148 1617 22725 278 KEL24739.1 17369 22726 169 1618 22727 278 KEL41025.1 17371 22728 169 1619 22729 278 KEL61645.1 17373 22730 169 1620 22731 278 KIG27436.1 17375 22732 169 1621 22733 278 CTV70042.1 17377 22734 169 1622 22735 278 ESL95858.1 17379 22736 188 1623 22737 278 EZR09257.1 17381 22738 188 1624 22739 278 KMI15681.1 17383 22740 188 1625 22741 278 BAO34670.1 17385 22742 169 1626 22743 278 CNG20796.1 17387 22744 169 1627 22745 278 CNJ07156.1 17389 22746 169 1628 22747 286 KUO23348.1 17391 22748 183 1629 22749 277 AKA50671.1 17393 22750 173 1630 22751 276 EKN28635.1 17395 22752 170 1631 22753 276 EEB34164.1 17397 22754 152 1632 22755 370 ABE61673.1 17399 22756 183 1633 22757 286 EKS39931.1 17401 22758 183 1634 22759 285 KGB50926.1 17403 22760 166 1635 22761 290 EFL96229.1 17405 22762 158 1636 22763 277 EGF16081.1 17407 22764 166 1637 22765 275 CYU22341.1 17409 22766 169 1638 22767 275 CYX44050.1 17411 22768 169 1639 22769 275 EMB57080.1 17413 22770 166 1640 22771 275 EMC13031.1 17415 22772 166 1641 22773 275 AMF85253.1 17417 22774 166 1642 22775 275 EFV96551.1 17419 22776 166 1643 22777 212 EGS28537.1 17421 22778 166 1644 22779 275 EPT39846.1 17423 22780 166 1645 22781 212 EPV87466.1 17425 22782 166 1646 22783 78 EPV95020.1 17427 22784 166 1647 22785 275 KLL29855.1 17429 22786 166 1648 22787 275 KLL34441.1 17431 22788 166 1649 22789 212 KLL34968.1 17433 22790 166 1650 22791 275 KKF49830.1 17435 22792 166 1651 22793 302 EGG58908.1 17437 22794 186 1652 22795 284 EOL13669.1 17439 22796 186 1653 22797 284 EOK19567.1 17441 22798 186 1654 22799 284 EOJ40183.1 17443 22800 186 1655 22801 284 EOJ44766.1 17445 22802 186 1656 22803 291 EPI04162.1 17447 22804 186 1657 22805 284 ETT98568.1 17449 22806 186 1658 22807 284 ETU01532.1 17451 22808 186 1659 22809 284 ETU06237.1 17453 22810 186 1660 22811 284 ETU10203.1 17455 22812 186 1661 22813 284 ETU16614.1 17457 22814 186 1662 22815 284 ETU21339.1 17459 22816 186 1663 22817 284 ETU24457.1 17461 22818 186 1664 22819 284 ETU31994.1 17463 22820 186 1665 22821 284 ETU40538.1 17465 22822 186 1666 22823 284 ETU48374.1 17467 22824 186 1667 22825 277 CDG04461.1 17469 22826 166 1668 22827 259 KMT21892.1 17471 22828 174 1669 22829 285 AMN36764.1 17473 22830 202 1670 22831 278 CEQ11380.1 17475 22832 200 1671 22833 275 CDG36275.1 17477 22834 170 1672 22835 271 EHG33945.1 17479 22836 203 1673 22837 271 KEH95235.1 17481 22838 203 1674 22839 285 ERK44587.1 17483 22840 164 1675 22841 285 KRK21386.1 17485 22842 148 1676 22843 286 EGE38622.1 17487 22844 390 1677 22845 269 AMS04502.1 17489 22846 171 1678 22847 286 EZP69578.1 17491 22848 181 1679 22849 271 KJJ86349.1 17493 22850 231 1680 22851 280 CAH34733.1 17495 22852 185 1681 22853 265 ABN91208.1 17497 22854 185 1682 22855 265 EDO90950.1 17499 22856 185 1683 22857 265 EET07925.1 17501 22858 185 1684 22859 265 EES25673.1 17503 22860 185 1685 22861 207 EIF62859.1 17505 22862 185 1686 22863 207 EIF64460.1 17507 22864 185 1687 22865 207 EIF75598.1 17509 22866 185 1688 22867 207 EIF80280.1 17511 22868 185 1689 22869 265 AFR14681.1 17513 22870 177 1690 22871 263 AIO13871.1 17515 22872 185 1691 22873 263 AIO91464.1 17517 22874 185 1692 22875 263 AJX61766.1 17519 22876 185 1693 22877 273 KGC79013.1 17521 22878 185 1694 22879 263 KGD17019.1 17523 22880 185 1695 22881 273 AIS48740.1 17525 22882 185 1696 22883 280 AIV89829.1 17527 22884 185 1697 22885 280 AIV96226.1 17529 22886 185 1698 22887 263 KGX68791.1 17531 22888 185 1699 22889 280 KGY01706.1 17533 22890 185 1700 22891 280 KGY04132.1 17535 22892 185 1701 22893 265 KIX42365.1 17537 22894 185 1702 22895 265 KIX63304.1 17539 22896 185 1703 22897 280 CDU27412.1 17541 22898 185 1704 22899 265 AJW52246.1 17543 22900 185 1705 22901 263 AJX27503.1 17545 22902 185 1706 22903 273 CRY48214.1 17547 22904 185 1707 22905 263 CPN90172.1 17549 22906 185 1708 22907 263 CPO07156.1 17551 22908 185 1709 22909 263 CPM40598.1 17553 22910 185 1710 22911 263 CPQ62540.1 17555 22912 185 1711 22913 263 CPQ18506.1 17557 22914 185 1712 22915 263 CPI70778.1 17559 22916 185 1713 22917 273 CPK87974.1 17561 22918 185 1714 22919 263 CPJ40996.1 17563 22920 185 1715 22921 263 CPJ76845.1 17565 22922 185 1716 22923 263 CPJ85529.1 17567 22924 185 1717 22925 263 CPH77120.1 17569 22926 185 1718 22927 273 CPJ25350.1 17571 22928 185 1719 22929 273 CPR02274.1 17573 22930 185 1720 22931 273 CPJ69705.1 17575 22932 185 1721 22933 273 CPK70888.1 17577 22934 185 1722 22935 263 CPQ22962.1 17579 22936 185 1723 22937 263 CPN03567.1 17581 22938 185 1724 22939 263 CPH78867.1 17583 22940 185 1725 22941 273 CPI57666.1 17585 22942 185 1726 22943 263 CPN26725.1 17587 22944 185 1727 22945 273 CPK20278.1 17589 22946 185 1728 22947 273 CPM33040.1 17591 22948 185 1729 22949 263 CPN87647.1 17593 22950 185 1730 22951 263 CPQ68085.1 17595 22952 185 1731 22953 273 CPM53745.1 17597 22954 185 1732 22955 273 CPM10536.1 17599 22956 185 1733 22957 273 CPP09107.1 17601 22958 185 1734 22959 263 CPL40913.1 17603 22960 185 1735 22961 263 CPN14465.1 17605 22962 185 1736 22963 263 CPK90364.1 17607 22964 185 1737 22965 273 CPP68466.1 17609 22966 185 1738 22967 273 CPP97961.1 17611 22968 185 1739 22969 273 CPN87403.1 17613 22970 185 1740 22971 263 CPR00114.1 17615 22972 185 1741 22973 273 CPH39487.1 17617 22974 185 1742 22975 263 CPG82791.1 17619 22976 185 1743 22977 263 CPM46639.1 17621 22978 185 1744 22979 273 CPG38295.1 17623 22980 185 1745 22981 273 CPH00861.1 17625 22982 185 1746 22983 273 CPH41999.1 17627 22984 185 1747 22985 265 ALB92816.1 17629 22986 185 1748 22987 265 ALB98878.1 17631 22988 185 1749 22989 265 ALC58208.1 17633 22990 185 1750 22991 273 CFT55150.1 17635 22992 185 1751 22993 273 CPQ86657.1 17637 22994 185 1752 22995 263 CFP14334.1 17639 22996 185 1753 22997 273 CFU67051.1 17641 22998 185 1754 22999 263 CFM98894.1 17643 23000 185 1755 23001 263 CFM81861.1 17645 23002 185 1756 23003 273 CPM85694.1 17647 23004 185 1757 23005 263 CPL97321.1 17649 23006 185 1758 23007 273 CFO92223.1 17651 23008 185 1759 23009 263 CFN19257.1 17653 23010 185 1760 23011 263 CPL11614.1 17655 23012 185 1761 23013 273 CPN25033.1 17657 23014 185 1762 23015 263 CPO46711.1 17659 23016 185 1763 23017 263 CFL99477.1 17661 23018 185 1764 23019 263 CPO89917.1 17663 23020 185 1765 23021 263 CFW49157.1 17665 23022 185 1766 23023 273 CFM22758.1 17667 23024 185 1767 23025 273 CPK84381.1 17669 23026 185 1768 23027 263 CFO79489.1 17671 23028 185 1769 23029 273 CFU75865.1 17673 23030 185 1770 23031 273 CFU18825.1 17675 23032 185 1771 23033 273 CFM67596.1 17677 23034 185 1772 23035 273 CFW79172.1 17679 23036 185 1773 23037 263 CFO54183.1 17681 23038 185 1774 23039 263 CFN47252.1 17683 23040 185 1775 23041 273 CFU32913.1 17685 23042 185 1776 23043 263 CFP26211.1 17687 23044 185 1777 23045 263 CPP85412.1 17689 23046 185 1778 23047 273 CFM37247.1 17691 23048 185 1779 23049 273 CPQ63792.1 17693 23050 185 1780 23051 263 CFO10821.1 17695 23052 185 1781 23053 273 CPL75805.1 17697 23054 185 1782 23055 273 CFM72559.1 17699 23056 185 1783 23057 273 CPK97857.1 17701 23058 185 1784 23059 263 CPN81591.1 17703 23060 185 1785 23061 273 CFW09150.1 17705 23062 185 1786 23063 263 CFU54704.1 17707 23064 185 1787 23065 263 CFK50093.1 17709 23066 185 1788 23067 273 CPG83454.1 17711 23068 185 1789 23069 273 CFT72111.1 17713 23070 185 1790 23071 273 CFL13096.1 17715 23072 185 1791 23073 273 CFL88482.1 17717 23074 185 1792 23075 263 CPE71771.1 17719 23076 185 1793 23077 273 CFT96164.1 17721 23078 185 1794 23079 273 CFT85443.1 17723 23080 185 1795 23081 263 CFL56340.1 17725 23082 185 1796 23083 263 CPI51266.1 17727 23084 185 1797 23085 249 ESG20658.1 17729 23086 295 1798 23087 278 AJQ64507.1 17731 23088 303 1799 23089 278 AJZ80319.1 17733 23090 303 1800 23091 234 CPW02870.1 17735 23092 170 1801 23093 279 GAC48718.1 17737 23094 171 1802 23095 258 ABM10182.1 17739 23096 169 1803 23097 285 ERN46352.1 17741 23098 169 1804 23099 230 KTD01947.1 17743 23100 185 1805 23101 297 CCV65563.1 17745 23102 162 1806 23103 278 KMK02864.1 17747 23104 169 1807 23105 276 AHJ12535.1 17749 23106 183 1808 23107 281 KUL42777.1 17751 23108 424 1809 23109 275 EID21941.1 17753 23110 166 1810 23111 275 GAD37766.1 17755 23112 166 1811 23113 279 KRK83039.1 17757 23114 165 1812 23115 279 EFV85441.1 17759 23116 186 1813 23117 273 EMZ26177.1 17761 23118 202 1814 23119 290 EKX62814.1 17763 23120 410 1815 23121 293 ABR64201.1 17765 23122 166 1816 23123 292 KND18806.1 17767 23124 166 1817 23125 285 ADG41467.1 17769 23126 166 1818 23127 290 EEA91363.1 17771 23128 168 1819 23129 284 EHI61154.1 17773 23130 331 1820 23131 281 EFF62518.1 17775 23132 181 1821 23133 276 ALS25373.1 17777 23134 184 1822 23135 275 KGM37270.1 17779 23136 166 1823 23137 293 EWG70340.1 17781 23138 167 1824 23139 309 AKP49794.1 17783 23140 167 1825 23141 207 KJV29336.1 17785 23142 186 1826 23143 253 EIL89964.1 17787 23144 125 1827 23145 291 KFF05552.1 17789 23146 166 1828 23147 306 CTQ72907.1 17791 23148 169 1829 23149 280 KRU21992.1 17793 23150 188 1830 23151 284 KJL32260.1 17795 23152 169 1831 23153 276 EHS54841.1 17797 23154 183 1832 23155 291 EJL63881.1 17799 23156 166 1833 23157 278 EJL84706.1 17801 23158 166 1834 23159 309 EID73850.1 17803 23160 167 1835 23161 280 KWF17575.1 17805 23162 185 1836 23163 285 ERI96810.1 17807 23164 215 1837 23165 319 EOS38322.1 17809 23166 166 1838 23167 285 EOS41469.1 17811 23168 202 1839 23169 271 CDF26097.1 17813 23170 203 1840 23171 317 KGN67553.1 17815 23172 170 1841 23173 277 KUK53686.1 17817 23174 170 1842 23175 293 KKO89197.1 17819 23176 183 1843 23177 278 KNC08319.1 17821 23178 166 1844 23179 209 KQN47926.1 17823 23180 188 1845 23181 276 KKH38513.1 17825 23182 193 1846 23183 276 KKH53103.1 17827 23184 193 1847 23185 276 KKH68856.1 17829 23186 193 1848 23187 276 KKH71867.1 17831 23188 193 1849 23189 276 KKH80639.1 17833 23190 193 1850 23191 276 KKF98497.1 17835 23192 193 1851 23193 276 KKH51285.1 17837 23194 193 1852 23195 276 KKH64072.1 17839 23196 193 1853 23197 276 KKH76319.1 17841 23198 193 1854 23199 276 KKH88480.1 17843 23200 193 1855 23201 276 KKH75120.1 17845 23202 193 1856 23203 276 KKH91068.1 17847 23204 193 1857 23205 276 KKI00019.1 17849 23206 193 1858 23207 276 KKI06937.1 17851 23208 193 1859 23209 276 KKI04816.1 17853 23210 193 1860 23211 255 ERH59125.1 17855 23212 190 1861 23213 279 ADG31356.1 17857 23214 187 ADG31358.1 17858 23215 186 1862 23216 273 AKV63927.1 17860 23217 188 AKV63929.1 17861 23218 231 1863 23219 281 CDB59853.1 17863 23220 187 CDB59854.1 17864 23221 170 1864 23222 297 EDO56708.1 17866 23223 81 EDO56706.1 17867 23224 184 1865 23225 271 KGN82594.1 17869 23226 187 KGN82592.1 17870 23227 224 1866 23228 277 AKR49339.1 17872 23229 183 AKR49342.1 17873 23230 169 1867 23231 292 ESS57196.1 17875 23232 304 ESS57523.1 17876 23233 183 1868 23234 278 AAN80857.1 17878 23235 307 AAN80858.1 17879 23236 169 1869 23237 278 EFJ93883.1 17881 23238 307 EFJ93882.1 17882 23239 169 1870 23240 278 EFU46135.1 17884 23241 307 EFU46134.1 17885 23242 169 1871 23243 278 EFU49593.1 17887 23244 307 EFU49594.1 17888 23245 169 1872 23246 278 EFJ59504.1 17890 23247 307 EFJ59503.1 17891 23248 169 1873 23249 278 EGB82663.1 17893 23250 307 EGB82664.1 17894 23251 169 1874 23252 278 EFM52808.1 17896 23253 307 EFM52807.1 17897 23254 169 1875 23255 278 EGB52116.1 17899 23256 287 EGB52117.1 17900 23257 169 1876 23258 278 AER84778.1 17902 23259 307 AER84779.1 17903 23260 169 1877 23261 278 AER89697.1 17905 23262 307 AER89698.1 17906 23263 169 1878 23264 278 EHO02521.1 17908 23265 307 EHO02520.1 17909 23266 169 1879 23267 278 ELL42846.1 17911 23268 287 ELL42847.1 17912 23269 169 1880 23270 278 ELI13534.1 17914 23271 307 ELI13535.1 17915 23272 169 1881 23273 278 ELI43904.1 17917 23274 307 ELI43905.1 17918 23275 169 1882 23276 278 ELI67624.1 17920 23277 307 ELI67625.1 17921 23278 169 1883 23279 278 ELI72587.1 17923 23280 307 ELI72588.1 17924 23281 169 1884 23282 278 ELI75958.1 17926 23283 307 ELI75959.1 17927 23284 169 1885 23285 278 ELJ03559.1 17929 23286 307 ELJ03560.1 17930 23287 169 1886 23288 278 ELJ14332.1 17932 23289 307 ELJ14333.1 17933 23290 169 1887 23291 278 ELJ38403.1 17935 23292 307 ELJ38404.1 17936 23293 169 1888 23294 278 ELJ71311.1 17938 23295 307 ELJ71312.1 17939 23296 169 1889 23297 278 ELI89430.1 17941 23298 307 ELI89431.1 17942 23299 169 1890 23300 278 ELJ28708.1 17944 23301 307 ELJ28709.1 17945 23302 169 1891 23303 278 ELC30029.1 17947 23304 307 ELC30030.1 17948 23305 169 1892 23306 278 ELC84582.1 17950 23307 307 ELC84583.1 17951 23308 169 1893 23309 278 ELC89742.1 17953 23310 307 ELC89743.1 17954 23311 169 1894 23312 278 ELC99566.1 17956 23313 307 ELC99567.1 17957 23314 169 1895 23315 278 ELD14725.1 17959 23316 307 ELD14726.1 17960 23317 169 1896 23318 278 ELD50498.1 17962 23319 307 ELD50499.1 17963 23320 169 1897 23321 278 ELE05783.1 17965 23322 307 ELE05784.1 17966 23323 169 1898 23324 278 ELE19655.1 17968 23325 307 ELE19656.1 17969 23326 169 1899 23327 278 ELE23558.1 17971 23328 307 ELE23559.1 17972 23329 169 1900 23330 278 ELE50399.1 17974 23331 307 ELE50400.1 17975 23332 169 1901 23333 278 ELE80390.1 17977 23334 307 ELE80391.1 17978 23335 169 1902 23336 278 ELE90660.1 17980 23337 307 ELE90661.1 17981 23338 169 1903 23339 278 ELE91476.1 17983 23340 307 ELE91477.1 17984 23341 169 1904 23342 278 ELF50403.1 17986 23343 307 ELF50404.1 17987 23344 169 1905 23345 278 ELF92088.1 17989 23346 307 ELF92089.1 17990 23347 169 1906 23348 278 ELG14336.1 17992 23349 307 ELG14337.1 17993 23350 169 1907 23351 278 ELG17001.1 17995 23352 307 ELG17002.1 17996 23353 169 1908 23354 278 ELG24589.1 17998 23355 307 ELG24590.1 17999 23356 169 1909 23357 278 ELG54536.1 18001 23358 307 ELG54537.1 18002 23359 169 1910 23360 278 ELG58276.1 18004 23361 307 ELG58277.1 18005 23362 169 1911 23363 278 ELH44354.1 18007 23364 307 ELH44355.1 18008 23365 169 1912 23366 278 ELH62527.1 18010 23367 307 ELH62528.1 18011 23368 169 1913 23369 278 ELH59266.1 18013 23370 307 ELH59267.1 18014 23371 169 1914 23372 278 ELH80075.1 18016 23373 307 ELH80076.1 18017 23374 169 1915 23375 278 ELH85628.1 18019 23376 307 ELH85629.1 18020 23377 169 1916 23378 278 ELH88469.1 18022 23379 307 ELH88470.1 18023 23380 169 1917 23381 278 ELI08745.1 18025 23382 307 ELI08746.1 18026 23383 169 1918 23384 278 EOR52538.1 18028 23385 307 EOR52539.1 18029 23386 169 1919 23387 278 EOV07666.1 18031 23388 307 EOV07667.1 18032 23389 169 1920 23390 278 EOX10650.1 18034 23391 307 EOX10651.1 18035 23392 169 1921 23393 278 EOV94184.1 18037 23394 307 EOV94185.1 18038 23395 169 1922 23396 278 EQN11055.1 18040 23397 307 EQN11054.1 18041 23398 169 1923 23399 278 EQN19683.1 18043 23400 307 EQN19684.1 18044 23401 169 1924 23402 278 EQN35017.1 18046 23403 307 EQN35018.1 18047 23404 140 1925 23405 278 EQN48987.1 18049 23406 307 EQN48988.1 18050 23407 169 1926 23408 278 EQN62514.1 18052 23409 307 EQN62515.1 18053 23410 169 1927 23411 278 EQN79329.1 18055 23412 307 EQN79330.1 18056 23413 169 1928 23414 278 EQN86133.1 18058 23415 307 EQN86134.1 18059 23416 169 1929 23417 278 EQN96593.1 18061 23418 307 EQN96594.1 18062 23419 169 1930 23420 278 EQO12275.1 18064 23421 307 EQO12274.1 18065 23422 169 1931 23423 278 EQO16636.1 18067 23424 307 EQO16637.1 18068 23425 169 1932 23426 278 EQO18513.1 18070 23427 307 EQO18514.1 18071 23428 169 1933 23429 278 EQO32109.1 18073 23430 307 EQO32110.1 18074 23431 169 1934 23432 278 EQO40645.1 18076 23433 307 EQO40646.1 18077 23434 169 1935 23435 278 EQO47385.1 18079 23436 307 EQO47386.1 18080 23437 169 1936 23438 278 EQO84678.1 18082 23439 307 EQO84679.1 18083 23440 169 1937 23441 278 EQO93034.1 18085 23442 307 EQO93035.1 18086 23443 169 1938 23444 278 EQO00511.1 18088 23445 307 EQP00512.1 18089 23446 169 1939 23447 278 EQP09248.1 18091 23448 307 EQP09249.1 18092 23449 169 1940 23450 278 EQP11536.1 18094 23451 307 EQP11537.1 18095 23452 169 1941 23453 278 EQP21161.1 18097 23454 307 EQP21162.1 18098 23455 169 1942 23456 278 EQP38128.1 18100 23457 307 EQP38129.1 18101 23458 169 1943 23459 278 EQP55411.1 18103 23460 307 EQP55412.1 18104 23461 169 1944 23462 278 EQP53331.1 18106 23463 307 EQP53332.1 18107 23464 169 1945 23465 278 EQP61512.1 18109 23466 307 EQP61513.1 18110 23467 169 1946 23468 278 EQP73528.1 18112 23469 307 EQP73529.1 18113 23470 169 1947 23471 278 EQP70427.1 18115 23472 307 EQP70428.1 18116 23473 169 1948 23474 278 EQQ06478.1 18118 23475 307 EQQ06479.1 18119 23476 169 1949 23477 278 EQQ25250.1 18121 23478 307 EQQ25251.1 18122 23479 169 1950 23480 278 EQQ27931.1 18124 23481 307 EQQ27932.1 18125 23482 169 1951 23483 278 EQQ41430.1 18127 23484 307 EQQ41431.1 18128 23485 169 1952 23486 278 EQQ33645.1 18130 23487 307 EQQ33646.1 18131 23488 169 1953 23489 278 EQQ53132.1 18133 23490 307 EQQ53133.1 18134 23491 169 1954 23492 278 EQQ74420.1 18136 23493 307 EQQ74421.1 18137 23494 169 1955 23495 278 EQQ75979.1 18139 23496 307 EQQ75980.1 18140 23497 169 1956 23498 278 EQQ88666.1 18142 23499 307 EQQ88667.1 18143 23500 169 1957 23501 278 EQQ90543.1 18145 23502 307 EQQ90544.1 18146 23503 169 1958 23504 278 EQR07408.1 18148 23505 307 EQR07409.1 18149 23506 169 1959 23507 278 EQR15136.1 18151 23508 307 EQR15137.1 18152 23509 169 1960 23510 278 EQR19369.1 18154 23511 307 EQR19370.1 18155 23512 169 1961 23513 278 EQR28928.1 18157 23514 307 EQR28929.1 18158 23515 169 1962 23516 278 EQR67052.1 18160 23517 307 EQR67053.1 18161 23518 169 1963 23519 278 EQR88162.1 18163 23520 307 EQR88163.1 18164 23521 169 1964 23522 278 EQR94356.1 18166 23523 307 EQR94357.1 18167 23524 169 1965 23525 278 EQS19448.1 18169 23526 307 EQS19449.1 18170 23527 169 1966 23528 278 EQS13122.1 18172 23529 307 EQS13123.1 18173 23530 169 1967 23531 278 EQS20957.1 18175 23532 307 EQS20958.1 18176 23533 169 1968 23534 278 EQS40212.1 18178 23535 307 EQS40213.1 18179 23536 169 1969 23537 278 ERA74999.1 18181 23538 307 ERA75000.1 18182 23539 169 1970 23540 278 EQS62806.1 18184 23541 307 EQS62807.1 18185 23542 169 1971 23543 278 ERA80455.1 18187 23544 307 ERA80456.1 18188 23545 169 1972 23546 278 ERA86691.1 18190 23547 307 ERA86692.1 18191 23548 169 1973 23549 278 EQS67054.1 18193 23550 307 EQS67055.1 18194 23551 169 1974 23552 278 EQS96895.1 18196 23553 307 EQS96896.1 18197 23554 169 1975 23555 278 EQT00424.1 18199 23556 307 EQT00425.1 18200 23557 169 1976 23558 278 EQT14972.1 18202 23559 307 EQT14973.1 18203 23560 169 1977 23561 278 EQT25529.1 18205 23562 307 EQT25530.1 18206 23563 169 1978 23564 278 EQT45490.1 18208 23565 307 EQT45491.1 18209 23566 169 1979 23567 278 EQT50679.1 18211 23568 307 EQT50680.1 18212 23569 169 1980 23570 278 EQT83219.1 18214 23571 307 EQT83220.1 18215 23572 169 1981 23573 249 EQT95716.1 18217 23574 307 EQT95717.1 18218 23575 169 1982 23576 278 EQU21867.1 18220 23577 307 EQU21868.1 18221 23578 169 1983 23579 278 EQU12096.1 18223 23580 307 EQU12097.1 18224 23581 169 1984 23582 278 ERA90776.1 18226 23583 307 ERA90777.1 18227 23584 169 1985 23585 278 EQU70204.1 18229 23586 307 EQU70205.1 18230 23587 169 1986 23588 278 EQU77944.1 18232 23589 307 EQU77945.1 18233 23590 169 1987 23591 278 EQU95024.1 18235 23592 307 EQU95025.1 18236 23593 169 1988 23594 278 EQV01573.1 18238 23595 307 EQV01574.1 18239 23596 169 1989 23597 278 EQV09454.1 18241 23598 307 EQV09455.1 18242 23599 169 1990 23600 278 EQV27902.1 18244 23601 307 EQV27903.1 18245 23602 169 1991 23603 278 ERA94626.1 18247 23604 307 ERA94627.1 18248 23605 169 1992 23606 278 ERB07222.1 18250 23607 307 ERB07223.1 18251 23608 169 1993 23609 278 EQV33720.1 18253 23610 307 EQV33721.1 18254 23611 169 1994 23612 278 EQV70970.1 18256 23613 307 EQV70971.1 18257 23614 169 1995 23615 278 EQV84932.1 18259 23616 307 EQV84933.1 18260 23617 169 1996 23618 278 EQW43213.1 18262 23619 307 EQW43214.1 18263 23620 169 1997 23621 278 EQW70391.1 18265 23622 307 EQW70392.1 18266 23623 169 1998 23624 278 EQW80281.1 18268 23625 307 EQW80282.1 18269 23626 169 1999 23627 278 EQW87484.1 18271 23628 307 EQW87485.1 18272 23629 169 2000 23630 278 EQX12314.1 18274 23631 307 EQX12315.1 18275 23632 169 2001 23633 278 EQX35783.1 18277 23634 307 EQX35784.1 18278 23635 169 2002 23636 278 EQX43606.1 18280 23637 307 EQX43607.1 18281 23638 169 2003 23639 278 EQX66167.1 18283 23640 307 EQX66168.1 18284 23641 169 2004 23642 278 EQX76185.1 18286 23643 307 EQX76186.1 18287 23644 169 2005 23645 278 EQY22297.1 18289 23646 307 EQY22298.1 18290 23647 169 2006 23648 278 EQY33194.1 18292 23649 307 EQY33195.1 18293 23650 169 2007 23651 278 EQY45030.1 18295 23652 307 EQY45031.1 18296 23653 169 2008 23654 278 EQY55712.1 18298 23655 307 EQY55713.1 18299 23656 169 2009 23657 278 EQY72169.1 18301 23658 307 EQY72170.1 18302 23659 169 2010 23660 278 EQZ19656.1 18304 23661 307 EQZ19657.1 18305 23662 169 2011 23663 278 EQZ26677.1 18307 23664 307 EQZ26676.1 18308 23665 169 2012 23666 278 EQZ41388.1 18310 23667 307 EQZ41389.1 18311 23668 169 2013 23669 278 EQZ91635.1 18313 23670 307 EQZ91636.1 18314 23671 169 2014 23672 278 ERA32821.1 18316 23673 307 ERA32822.1 18317 23674 169 2015 23675 278 ERA36346.1 18319 23676 307 ERA36347.1 18320 23677 169 2016 23678 278 ERF54132.1 18322 23679 307 ERF54133.1 18323 23680 169 2017 23681 278 ESK18130.1 18325 23682 307 ESK18131.1 18326 23683 169 2018 23684 278 ESK18552.1 18328 23685 307 ESK18553.1 18329 23686 169 2019 23687 278 ESK29584.1 18331 23688 307 ESK29585.1 18332 23689 169 2020 23690 278 ESC95629.1 18334 23691 307 ESC95630.1 18335 23692 169 2021 23693 278 ESD43647.1 18337 23694 81 ESD43646.1 18338 23695 169 2022 23696 278 ESE27408.1 18340 23697 307 ESE27409.1 18341 23698 169 2023 23699 278 ESE32329.1 18343 23700 307 ESE32328.1 18344 23701 169 2024 23702 278 ESE38126.1 18346 23703 307 ESE38127.1 18347 23704 169 2025 23705 278 ESP10884.1 18349 23706 307 ESP10883.1 18350 23707 169 2026 23708 278 ESP23169.1 18352 23709 307 ESP23170.1 18353 23710 169 2027 23711 278 ETE11167.1 18355 23712 307 ETE11168.1 18356 23713 169 2028 23714 278 ETF35982.1 18358 23715 307 ETF35983.1 18359 23716 169 2029 23717 278 EZQ63562.1 18361 23718 307 EZQ63563.1 18362 23719 169 2030 23720 278 KDG03092.1 18364 23721 307 KDG03093.1 18365 23722 169 2031 23723 278 KDO90446.1 18367 23724 307 KDO90447.1 18368 23725 169 2032 23726 278 AID79059.1 18370 23727 307 AID79060.1 18371 23728 169 2033 23729 278 AIL14919.1 18373 23730 307 AIL14831.1 18374 23731 169 2034 23732 278 KLX17103.1 18376 23733 307 KLX17104.1 18377 23734 169 2035 23735 278 KLX44350.1 18379 23736 307 KLX44351.1 18380 23737 169 2036 23738 278 KLX45651.1 18382 23739 307 KLX45652.1 18383 23740 169 2037 23741 278 ALD37596.1 18385 23742 287 ALD34923.1 18386 23743 169 2038 23744 278 KSY03096.1 18388 23745 287 KSY02660.1 18389 23746 169 2039 23747 278 KUR38293.1 18391 23748 287 KUR38255.1 18392 23749 169 2040 23750 278 KUR81992.1 18394 23751 287 KUR81833.1 18395 23752 169 2041 23753 278 KUR94139.1 18397 23754 287 KUR94070.1 18398 23755 169 2042 23756 278 KUR99652.1 18400 23757 287 KUR99611.1 18401 23758 169 2043 23759 278 KUS68975.1 18403 23760 287 KUS68706.1 18404 23761 169 2044 23762 278 KUS65771.1 18406 23763 287 KUS65753.1 18407 23764 169 2045 23765 278 KUS06605.1 18409 23766 287 KUS06587.1 18410 23767 169 2046 23768 278 KUW86276.1 18412 23769 287 KUW86272.1 18413 23770 169 2047 23771 278 KUT33564.1 18415 23772 287 KUT33560.1 18416 23773 169 2048 23774 278 KUV71943.1 18418 23775 287 KUV71917.1 18419 23776 169 2049 23777 278 KUT65778.1 18421 23778 287 KUT65774.1 18422 23779 169 2050 23780 278 KUT92675.1 18424 23781 287 KUT92653.1 18425 23782 169 2051 23783 278 KUV55803.1 18427 23784 287 KUV55765.1 18428 23785 169 2052 23786 278 KUU93006.1 18430 23787 287 KUU92986.1 18431 23788 169 2053 23789 278 KUV32585.1 18433 23790 287 KUV32575.1 18434 23791 169 2054 23792 278 KUX05541.1 18436 23793 287 KUX05522.1 18437 23794 169 2055 23795 278 KUX02226.1 18439 23796 287 KUX02163.1 18440 23797 169 2056 23798 278 KUW18250.1 18442 23799 287 KUW18189.1 18443 23800 169 2057 23801 278 KUU04918.1 18445 23802 287 KUU04901.1 18446 23803 169 2058 23804 278 KUW44263.1 18448 23805 287 KUW44251.1 18449 23806 169 2059 23807 278 KUW29429.1 18451 23808 287 KUW29414.1 18452 23809 169 2060 23810 278 KUT58705.1 18454 23811 287 KUT58680.1 18455 23812 169 2061 23813 278 KUX37247.1 18457 23814 287 KUX37209.1 18458 23815 169 2062 23816 278 KUV14431.1 18460 23817 287 KUV14409.1 18461 23818 169 2063 23819 278 KUX73675.1 18463 23820 287 KUX73638.1 18464 23821 169 2064 23822 278 KUW86808.1 18466 23823 287 KUW86784.1 18467 23824 169 2065 23825 278 KUX51137.1 18469 23826 287 KUX51101.1 18470 23827 169 2066 23828 278 KVI42459.1 18472 23829 287 KVI42423.1 18473 23830 169 2067 23831 278 KVI22812.1 18475 23832 287 KVI22807.1 18476 23833 169 2068 23834 278 KXG92286.1 18478 23835 307 KXG92285.1 18479 23836 169 2069 23837 278 KXL04892.1 18481 23838 287 KXL04868.1 18482 23839 169 2070 23840 278 KXL27416.1 18484 23841 287 KXL27377.1 18485 23842 169 2071 23843 278 KXL05688.1 18487 23844 287 KXL05684.1 18488 23845 169 2072 23846 278 KXL13376.1 18490 23847 287 KXL13116.1 18491 23848 169 2073 23849 278 KTK78308.1 18493 23850 287 KTK75706.1 18494 23851 169 2074 23852 285 EPI32469.1 18496 23853 474 EPI32467.1 18497 23854 153 2075 23855 283 ETU24521.1 18499 23856 281 ETU24519.1 18500 23857 173 2076 23858 281 ELB67023.1 18502 23859 277 ELB67021.1 18503 23860 166 2077 23861 271 ENZ13054.1 18505 23862 98 ENZ13056.1 18506 23863 134 2078 23864 278 AHW13888.1 18508 23865 294 AHW13889.1 18509 23866 169 2079 23867 278 ESP72123.1 18511 23868 295 ESP72122.1 18512 23869 169 2080 23870 278 ESP76606.1 18514 23871 295 ESP76605.1 18515 23872 169 2081 23873 278 KFT73589.1 18517 23874 303 KFT73590.1 18518 23875 169 2082 23876 278 KHP33250.1 18520 23877 287 KHP33098.1 18521 23878 169 2083 23879 278 KHP35541.1 18523 23880 287 KHP34816.1 18524 23881 169 2084 23882 278 AKF88466.1 18526 23883 303 AMQ08961.1 18527 23884 169 2085 23885 278 KNK74746.1 18529 23886 303 KNK74745.1 18530 23887 169 2086 23888 278 KNW86451.1 18532 23889 303 KNW86450.1 18533 23890 169 2087 23891 277 ALO88018.1 18535 23892 303 ALO88019.1 18536 23893 169 2088 23894 278 KTQ22862.1 18538 23895 287 KTQ21994.1 18539 23896 169 2089 23897 278 KUB19504.1 18541 23898 287 KUB19292.1 18542 23899 169 2090 23900 278 KTY61531.1 18544 23901 287 KTY61368.1 18545 23902 169 2091 23903 278 KUB06355.1 18547 23904 287 KUB06250.1 18548 23905 169 2092 23906 278 KUD95102.1 18550 23907 287 KUD94943.1 18551 23908 169 2093 23909 278 GAR53163.1 18553 23910 303 GAR53164.1 18554 23911 169 2094 23912 282 EDS74763.1 18556 23913 284 EDS74762.1 18557 23914 217 2095 23915 291 KUG13795.1 18559 23916 284 KUG13797.1 18560 23917 168 2096 23918 278 EIY23904.1 18562 23919 176 EIY23906.1 18563 23920 176 2097 23921 297 EOS20512.1 18565 23922 280 EOS20510.1 18566 23923 154 2098 23924 278 EEH86955.2 18568 23925 307 EEH86956.1 18569 23926 169 2099 23927 293 CDE34945.1 18571 23928 266 CDE34947.1 18572 23929 185 2100 23930 278 AKW15255.1 18574 23931 303 AKW15260.1 18575 23932 291 AKW15254.1 18576 23933 169 (Part C) AB AF Y Z AA ThsB (iv) AC AD AE ThsB (v) AG AH ThsB (iv) PRT SEQ DNA SEQ protein ThsB (v) PRT SEQ DNA SEQ protein Genomic Genomic AI 1 protein_accession ID NO: ID NO: length (aa) protein_accession ID NO: ID NO: length (aa) Start Point End Point comments 2 18199 21006 3 629 2777 4 5626 8433 5 22562 25369 6 51158 53041 7 972 2894 8 7781 10368 9 4395990 4398131 10 72122 74690 11 36696 39253 12 36738 39295 13 12931 15738 14 26929 28839 15 168640 171278 Additional ThsA homolog EGV07143.1 16 117544 120507 17 6436 9650 Additional ThsA homolog EHM75397.1 18 29271 31828 19 13966 17199 20 5865 9078 21 89212 92444 Additional ThsA homolog EIA14316.1 22 52056 55538 Additional ThsA homolog EIC95445.1 and EIC95416.1 23 1081676 1083596 24 66368 68925 25 66447 69004 26 17507 20048 27 86 1182 28 11678 13703 29 329879 331798 30 5296579 5302199 31 2271775 2274990 32 5587 8095 33 7411 9563 34 7716 9868 35 166 2264 36 331145 333209 37 416875 418939 38 9843 12589 39 137838 139780 40 3230645 3232587 41 214042 218633 42 BAQ74698.1 13325 18682 282 3398464 3402455 43 222931 225520 44 46820 51171 45 29183 31097 46 46863 51213 47 6531 9746 48 58762 61977 49 29869 33084 50 6530 9744 Additional ThsA homolog EPZ03687.1 51 29869 33083 Additional ThsA homolog EPZ11496.1 52 1186644 1187914 53 4035 5954 54 4032 5951 55 ETR95047.1 13360 18717 392 ETR95035.1 13361 18718 258 57073 63348 56 102852 105529 57 68333 70275 58 29849 31768 59 10611 13921 60 38796 40715 61 ERT19164.1 13378 18735 284 47778 51812 62 13859 16441 63 12425 15043 64 4783 6845 65 15034 16957 66 140001 142539 67 28373 30424 68 1 1825 69 64004 65911 70 166 2021 71 6080 8527 72 515442 517994 73 674 3536 74 139546 141467 75 41136 43033 76 13018 14436 77 4125512 4127653 78 5228544 5231702 79 5761473 5764631 80 1756503 1758422 81 257376 259446 82 3144948 3147551 83 416071 423425 84 1137270 1142967 85 3070609 3073154 86 1196726 1201628 87 1362278 1364836 88 1106775 1110408 89 6843 9373 90 ABR34956.1 13455 18812 397 3262303 3271086 91 193025 201754 92 ACA73841.1 13462 18819 284 3700507 3704541 93 1522479 1525210 94 159043 161228 95 26150 28218 96 3660129 3669571 97 30739 34915 98 8582744 8587380 99 1144241 1146856 100 AEA61153.1 13487 18844 185 AEA61148.1 13488 18845 380 2903631 2911620 101 2114555 2117787 Additional ThsA homolog AFH70386.1 102 463662 466219 103 4207854 4209995 104 2480783 2484341 105 3773861 3775803 106 2704998 2706901 107 587283 590090 108 3506208 3510086 109 2181958 2185173 110 5998143 6005265 111 3932979 3934921 112 1794531 1800432 Additional ThsA homolog AHZ68659.1 113 3384959 3385740 114 10892 12978 115 3875996 3877938 116 1315665 1318348 117 AIU01467.1 13536 18893 397 3262298 3271081 118 4055767 4058527 119 77843 79615 Additional ThsA homolog AJK51070.1 120 333850 336261 121 329400 331811 122 347430 349849 123 347423 349980 124 3945969 3949326 125 4205818 4210073 126 1170644 1172700 127 2330122 2333479 128 1113818 1116217 129 882751 885296 130 2831462 2835547 131 311495 313453 132 6039155 6041758 133 79256 82956 134 1727530 1732447 135 1268306 1270321 136 3178713 3180655 137 2230390 2233379 138 2056187 2058744 139 1551820 1554323 140 1705326 1706706 141 2176463 2179695 142 2168129 2171362 143 2280993 2284226 144 3915939 3920392 145 1704217 1705597 146 2183524 2186331 147 1361260 1364863 Additional ThsA homolog AMJ40915.1 148 1163503 1166716 149 5251680 5253446 150 4624 9364 151 123406 125800 152 414 2808 153 4336 6730 154 112666 114575 155 CQJ38345.1 13644 19001 395 119502 126440 156 170171 175125 157 22084 24292 158 15713 17632 159 97 2016 160 3516 5435 161 86 2005 162 126 2045 163 86 2005 164 86504 88423 165 126 2045 166 3572 5491 167 86 2005 168 86 2005 169 86 2005 170 3523 5442 171 86 2005 172 15712 17631 173 15714 17633 174 15715 17634 175 15715 17634 176 17014 18933 177 86 2005 178 15715 17634 179 16634 18553 180 17014 18933 181 15714 17633 182 86 2005 183 86 2005 184 86 2005 185 15916 17835 186 86 2005 187 86 2005 188 86 2005 189 86 2005 190 17014 18933 191 16688 18607 192 86 2005 193 86 2005 194 86 2005 195 15714 17633 196 86 2005 197 15712 17631 198 15707 17626 199 15715 17634 200 16688 18607 201 86 2005 202 15713 17632 203 86 2005 204 86 2005 205 86 2005 206 15727 17646 207 86 2005 208 19604 21523 209 15675 17594 210 86 2005 211 86 2005 212 103 2022 213 86 2005 214 15667 17586 215 86 2005 216 86 2005 217 86 2005 218 86 2005 219 111 2030 220 86 2005 221 86 2005 222 86 2005 223 15714 17633 224 20763 22682 225 15715 17634 226 90 2009 227 86 2005 228 86 2005 229 86 2005 230 15715 17634 231 86 2005 232 90 2009 233 126 2045 234 93 2012 235 86 2005 236 86 2005 237 15713 17632 238 86 2005 239 15711 17630 240 15713 17632 241 86 2005 242 9021 10940 243 86 2005 244 86 2005 245 86 2005 246 85 2004 247 86 2005 248 86 2005 249 19605 21524 250 15916 17835 251 15715 17634 252 15916 17835 253 15916 17835 254 86 2005 255 85 2004 256 86 2005 257 86 2005 258 86 2005 259 3523 5442 260 15715 17634 261 15715 17634 262 15715 17634 263 86 2005 264 86 2005 265 86 2005 266 86 2005 267 86 2005 268 15916 17835 269 86 2005 270 86 2005 271 86 2005 272 15916 17835 273 15916 17835 274 15916 17835 275 15713 17632 276 15715 17634 277 85 2004 278 20706 22625 279 85 2004 280 85 2004 281 86 2005 282 86 2005 283 90 2009 284 86 2005 285 15714 17633 286 15719 17638 287 15710 17629 288 15726 17645 289 3523 5442 290 15715 17634 291 15915 17834 292 86 2005 293 86 2005 294 86 2005 295 86 2005 296 86 2005 297 86 2005 298 15715 17634 299 86 2005 300 86 2005 301 86 2005 302 86 2005 303 86 2005 304 86 2005 305 86 2005 306 86 2005 307 86 2005 308 86 2005 309 86 2005 310 3520 5439 311 86 2005 312 86 2005 313 86 2005 314 86 2005 315 15715 17634 316 85 2004 317 19612 21531 318 15715 17634 319 15712 17631 320 15715 17634 321 19605 21524 322 86 2005 323 15714 17633 324 15715 17634 325 85 2004 326 15715 17634 327 19605 21524 328 85 2004 329 86 2005 330 86 2005 331 15714 17633 332 15713 17632 333 3523 5442 334 15715 17634 335 19605 21524 336 86 2005 337 86 2005 338 57301 59220 339 16030 17949 340 86 2005 341 86 2005 342 86 2005 343 15714 17633 344 15715 17634 345 86 2005 346 90 2009 347 85 2004 348 86 2005 349 21322 23241 350 86 2005 351 86 2005 352 86 2005 353 86 2005 354 86 2005 355 84 2003 356 86 2005 357 86 2005 358 86 2005 359 86 2005 360 57 1976 361 86 2005 362 90 2009 363 86 2005 364 126 2045 365 90 2009 366 86 2005 367 86 2005 368 86 2005 369 3523 5442 370 86 2005 371 86 2005 372 86 2005 373 86 2005 374 86 2005 375 86 2005 376 86 2005 377 3523 5442 378 3523 5442 379 86 2005 380 86 2005 381 86 2005 382 20582 22497 383 69792 71707 384 473455 475428 385 CUI40923.1 14109 19466 380 61503 69491 386 29199 31433 387 91096 93166 388 13294 15364 389 91096 93166 390 208463 212572 391 52908 54850 392 205694 207636 393 51817 53759 394 52565 54507 395 40795 42737 396 208781 210723 397 416502 418444 398 52868 54810 399 205143 207085 400 205136 207078 401 52762 54704 402 48586 50528 403 205291 207233 404 227349 229291 405 54635 56577 406 205150 207092 407 52282 54224 408 98754 100696 409 459698 461640 410 1072447 1074389 411 52866 54808 412 52771 54713 413 53129 55071 414 52821 54763 415 381639 383581 416 251604 253547 Additional ThsA homolog CUZ65536.1 417 227335 229277 418 215912 217854 419 170621 172563 420 54612 56554 421 259463 261405 422 52769 54711 423 215028 216970 424 55119 57061 425 145344 147286 426 51538 53480 427 54675 56617 428 52756 54698 429 247802 249745 Additional ThsA homolog CUZ82852.1 430 468965 470907 431 52873 54815 432 58418 60361 Additional ThsA homolog CUZ43256.1 433 52608 54550 434 98756 100698 435 51815 53757 436 48717 50659 437 378607 380549 438 259489 261431 439 259461 261403 440 53320 55262 441 52797 54739 442 259463 261405 443 71559 73501 444 71562 73504 445 205150 207092 446 54661 56603 447 2774448 2776391 Additional ThsA homolog CVB24107.1 448 474999 476941 449 205287 207229 450 54153 56096 Additional ThsA homolog CVB73330.1 451 287703 289646 Additional ThsA homolog CVA22598.1 452 205297 207239 453 54674 56616 454 227325 229267 455 259463 261405 456 52811 54753 457 259443 261385 458 259454 261396 459 52807 54749 460 54610 56552 461 54003 55945 462 52860 54802 463 555244 557186 464 205101 207043 465 259463 261405 466 55632 57574 467 469398 471341 Additional ThsA homolog CVB85980.1 468 52988 54930 469 53025 54967 470 52986 54928 471 245145 247087 472 228659 230601 473 259502 261444 474 72560 74502 475 54144 56087 Additional ThsA homolog CVD13385.1 476 53587 55529 477 205145 207087 478 259537 261479 479 52763 54705 480 204839 206781 481 250690 252632 482 52792 54734 483 52806 54748 484 259463 261405 485 53587 55529 486 54693 56635 487 381593 383535 488 259463 261405 489 53129 55071 490 229979 231922 Additional ThsA homolog CVC59825.1 491 40797 42739 492 53318 55260 493 474325 476267 494 276598 278540 495 205145 207087 496 56080 58023 Additional ThsA homolog CVD28877.1 497 203403 205345 498 205188 207130 499 100253 102196 Additional ThsA homolog CVC40444.1 500 54152 56095 Additional ThsA homolog CVE27748.1 501 52837 54779 502 287741 289684 Additional ThsA homolog CVE69273.1 503 250718 252660 504 53129 55071 505 409590 411532 506 225217 227159 507 55828 57770 508 52615 54557 509 259463 261405 510 85596 87538 511 40786 42728 512 51813 53755 513 331093 333036 Additional ThsA homolog CVE63008.1 514 205143 207085 515 246483 248425 516 55632 57574 517 203360 205302 518 203361 205303 519 53129 55071 520 302434 304376 521 205143 207085 522 250747 252689 523 51815 53757 524 52610 54552 525 218394 220336 526 204804 206746 527 56080 58023 Additional ThsA homolog CVF09827.1 528 225215 227157 529 380827 382769 530 507350 509292 531 205145 207087 532 205180 207122 533 468279 470221 534 204811 206753 535 2911354 2913296 536 204806 206748 537 48895 50837 538 250731 252673 539 250678 252620 540 209597 211539 541 205292 207234 542 218370 220312 543 204799 206741 544 259507 261449 545 98756 100698 546 52831 54773 547 229166 231108 548 229192 231134 549 52862 54804 550 469390 471333 Additional ThsA homolog CVF82665.1 551 205176 207118 552 86294 88236 553 195844 197787 Additional ThsA homolog CVG82395.1 554 259485 261427 555 52838 54780 556 259463 261405 557 205143 207085 558 204848 206790 559 52908 54850 560 48895 50837 561 204800 206742 562 205105 207047 563 52761 54703 564 205143 207085 565 804248 806190 566 42050 43992 567 259463 261405 568 98758 100700 569 205139 207081 570 203358 205300 571 245017 246902 572 244655 246597 573 204808 206750 574 55294 57236 575 40785 42727 576 146358 148300 577 203356 205298 578 213928 215870 579 53145 55087 580 302444 304386 581 205171 207113 582 86298 88240 583 225285 227227 584 2489848 2491790 585 48902 50844 586 205139 207081 587 52816 54758 588 48889 50831 589 259463 261405 590 276608 278550 591 52823 54765 592 219855 224432 593 665752 668658 594 10795 15202 Additional ThsA homolog CVJ34926.1 595 91413 93483 596 91412 93482 597 145450 148647 598 170139 172016 599 147107 150314 600 5221 8428 601 27175 28106 602 89207 90138 603 56578 57509 604 2764 3695 605 755402 757321 606 2281482 2283690 Additional ThsA homolog CBK94115.1 607 2147940 2151155 608 5550 8081 609 216318 218740 610 381949 385460 611 5760 7808 612 300284 303091 613 49142 51298 614 1929426 1932118 615 14797 17604 616 684310 687507 617 127257 129883 618 2141168 2149732 619 3041325 3043214 620 3085346 3087231 621 553 2600 622 10886 13693 623 14764 17571 624 10882 13689 625 34164 36837 626 58272 62622 627 7752 11008 Additional ThsA homolog EWC94486.1 628 270 5901 629 3054 11860 630 EXE88613.1 14621 19978 405 EXE88615.1 14622 19979 261 264895 270729 631 55048 58095 632 95834 100666 633 284960 286849 634 509807 511734 635 2108537 2115530 636 708642 710850 637 599550 602414 638 83092 84822 639 176458 181638 640 177762 182743 641 207 2134 642 251026 252953 643 4590 6517 644 2641819 2643746 645 442583 444510 646 430783 432710 647 251121 253048 648 205694 207650 649 4337287 4339430 650 154987 158145 651 19805 21921 652 417 3971 653 13781 16588 654 7847 10654 655 4608 7415 656 10909 13716 657 36794 39601 658 10909 13716 659 36880 39687 660 42693 45500 661 42768 45575 662 42629 45436 663 13781 16588 664 2627330 2629968 665 166982 169811 666 1603 3518 667 23156 26372 668 58886 62101 669 58887 62102 670 58821 62036 671 58821 62036 672 58887 62102 673 58887 62102 674 2720 5935 675 11491 14706 676 58887 62102 677 58887 61046 678 58887 62102 679 58887 62102 680 3137 6352 681 58887 62102 682 58887 62102 683 58887 62102 684 58887 62102 685 89236 92451 686 58887 62102 687 58881 62096 688 58887 62102 689 89217 92431 Additional ThsA homolog EZR97100.1 690 58887 62102 691 89217 92432 692 58653 61868 693 58887 62102 694 11494 14709 695 89253 92468 696 17149 20364 697 58886 62101 698 89215 92430 699 58887 62102 700 58887 62102 701 51382 54597 702 58887 62102 703 58887 62102 704 58887 62102 705 27394 30609 706 11491 14706 707 58887 62102 708 89217 92432 709 58887 62102 710 89087 92302 711 58821 62036 712 58821 62036 713 89168 92383 714 102659 105874 715 58887 62102 716 56011 59226 717 58887 62102 718 58887 62102 719 58887 62101 720 58887 62102 721 13914 17129 722 58887 62102 723 58887 62102 724 58887 62102 725 58887 62102 726 58886 62101 727 58887 62102 728 58887 62102 729 35404 38619 730 58887 62102 731 20381 23596 732 58887 62102 733 58887 62102 734 58887 62102 735 11491 14706 736 86075 89290 737 58887 62102 738 58887 62101 739 58887 62102 740 58830 62045 741 59025 62239 Additional ThsA homolog EZT27374.1 742 58887 62102 743 58887 62102 744 58887 62102 745 58821 62036 746 89258 92473 747 58692 61907 748 58887 62101 Additional ThsA homolog EZT47450.1 749 89211 92425 Additional ThsA homolog EZT50535.1 750 58886 62101 751 58887 62102 752 58887 62102 753 89173 92388 754 85365 88580 755 58887 62102 756 58887 62102 757 58896 62111 758 58887 62102 759 58887 62102 760 58887 62102 761 5927 9142 762 58887 62102 763 58887 62102 764 58653 61868 765 58821 62036 766 58888 62103 767 58887 62102 768 58887 62102 769 58887 62102 770 58887 62102 771 1635 3550 772 1609 3524 773 135764 138293 774 1226749 1227659 775 107019 109625 776 92321 94908 777 101172 103087 778 24694 33804 779 261749 270859 780 11963 13878 781 11673 14353 782 11661 14339 783 37 2714 784 11671 14348 785 1494 4171 786 10184 12273 787 51656 53785 788 368690 371206 789 20762 22677 790 408 2323 791 57709 59078 792 852 2259 793 402013 404602 Additional ThsA homolog KEQ37438.1 794 534537 537500 795 54006 55948 796 268 2210 797 KFF62087.1 15092 20449 278 278870 286182 798 13328 15398 799 29271 31828 800 1177641 1180423 801 796009 798073 802 25866 35282 803 14362 17169 804 43124 45703 805 1357 3279 806 14786 17593 807 80211 82768 Additional ThsA homolog KIE90699.1 and KIE90686.1 808 80286 82844 Additional ThsA homolog KIE90603.1 809 80290 82848 Additional ThsA homolog KIE97286.1 810 25818 28376 Additional ThsA homolog KIE97673.1 811 25803 28361 Additional ThsA homolog KIE96200.1 812 80213 82771 Additional ThsA homolog KIE90358.1 813 KHN56275.1 15137 20494 183 212601 218790 814 89226 92441 815 548602 550666 816 791385 792765 817 4381185 4383127 818 79011 80966 819 79815 81770 820 57400 59342 821 343540 345493 822 303729 307800 823 268769 271576 824 540414 543221 825 119577 122384 826 551887 554694 827 743854 746661 828 119853 122660 829 28372 37080 830 1890562 1892626 831 923150 925214 832 766850 768914 833 2675060 2675910 834 979222 981286 835 1470124 1472188 836 93913 98742 Additional ThsA homolog ENU62563.1 837 97812 100703 838 1497967 1506125 839 170794 174348 Additional ThsA homolog ENX27879.1 840 676899 679468 841 1866683 1870168 842 214685 217492 843 121299 124106 844 1399298 1402105 845 123919 126726 846 122496 125303 847 122329 125136 848 448160 450967 849 575596 578403 850 401264 404071 851 254055 256166 852 800671 802590 853 253248 255167 854 476 3696 855 212236 214349 856 1791824 1793888 857 773643 775707 858 434828 436769 859 397991 399932 860 449083 451024 861 95 2309 862 1377455 1381181 863 2693429 2697155 864 737416 740613 865 1907694 1910501 866 1393914 1395856 867 103489 105607 868 53375 55317 869 89124 92339 870 58887 62102 871 88416 91631 872 58887 62102 873 58887 62102 874 58887 62102 875 89258 92473 876 59082 62297 877 88152 91367 878 58887 62102 879 89302 92517 880 59082 62297 881 3860 7075 882 58887 62102 883 2496 5711 884 58887 62102 885 89302 92517 886 88596 91811 887 2217 5432 888 89258 92473 889 58887 62102 890 59471 62686 891 76731 79946 892 36126 39341 893 89173 92388 894 89173 92388 895 89124 92339 896 58887 62102 897 89258 92472 Additional ThsA homolog EZV09968.1 898 58887 62102 899 79669 82884 900 89302 92517 901 58475 61690 902 58887 62102 903 58887 62102 904 89192 92407 905 58887 62102 906 89155 92370 907 64585 67800 908 89258 92473 909 88340 91555 910 89192 92407 911 58821 62036 912 58887 62102 913 3860 7075 914 58765 61980 915 58887 62101 Additional ThsA homolog EZV68413.1 916 88570 91785 917 89253 92468 918 58887 62102 919 58887 62102 920 59048 62263 921 35074 38289 922 64681 67896 923 58887 62102 924 88826 92041 925 88334 91549 926 3114 6329 927 58887 62102 928 58887 62102 929 59079 62294 930 3091 6306 931 3091 6306 932 58887 62102 933 59099 62314 934 58653 61868 935 58887 62102 936 89173 92388 937 89168 92383 938 58887 62102 939 89258 92473 940 89258 92473 941 58887 62102 942 58887 62102 943 58887 62102 944 58887 62102 945 58653 61868 946 89028 92243 947 3800 7015 948 87505 90720 949 59081 62296 950 58655 61870 951 89301 92515 952 58887 62102 953 58887 62102 954 58887 62102 955 3114 6329 956 58887 62102 957 89302 92517 958 51851 55066 959 89258 92473 960 58887 62102 961 58887 62102 962 59503 62718 963 58887 62102 964 40472 43687 965 58887 62102 966 58907 62122 967 26695 29910 968 58887 62102 969 89798 93013 970 58887 62102 971 58887 62102 972 89301 92515 Additional ThsA homolog EZX30780.1 973 58653 61867 Additional ThsA homolog EZX33811.1 974 89253 92467 Additional ThsA homolog EZX38407.1 975 89258 92473 976 6173 9387 977 58887 62101 978 85412 88627 979 58887 62102 980 58887 62102 981 58887 62101 Additional ThsA homolog EZX53549.1 982 89302 92517 983 59081 62296 984 58887 62102 985 63625 66839 Additional ThsA homolog EZX64344.1 986 58887 62102 987 58821 62036 988 58887 62102 989 8858 12073 990 89257 92472 991 89302 92517 992 58887 62102 993 63857 67072 994 87357 90572 995 89258 92473 996 58887 62102 997 89214 92429 998 89253 91325 999 89168 92383 1000 58887 62102 1001 48320 51535 1002 89302 92517 1003 29770 32985 1004 89304 92521 1005 58887 62102 1006 89253 92468 1007 58887 62102 1008 89253 91412 1009 2625 5840 1010 88832 92047 1011 89302 92517 1012 89302 92517 1013 58887 62102 1014 89216 92431 1015 58887 62102 1016 64320 67534 Additional ThsA homolog EZY44866.1 1017 58887 62102 1018 58887 62102 1019 58887 62101 Additional ThsA homolog EZY52188.1 1020 58887 62101 Additional ThsA homolog EZY54363.1 1021 4154 7368 Additional ThsA homolog EZY58963.1 1022 58887 62102 1023 58887 62102 1024 89258 92473 1025 58887 62102 1026 58887 62102 1027 89302 92517 1028 58887 62102 1029 58821 62036 1030 58831 62046 1031 89253 92468 1032 14360 17575 1033 86376 89591 1034 89253 92468 1035 58887 61350 1036 58821 62036 1037 58887 61350 1038 3244 6459 1039 58887 62101 Additional ThsA homolog EZZ07027.1 1040 3860 7075 1041 89258 92474 1042 58887 62102 1043 58887 62101 1044 89028 92243 1045 57669 60884 1046 58887 62102 1047 57242 60457 1048 11497 14712 1049 58887 62102 1050 89603 92818 1051 14572 17787 1052 58887 62102 1053 58887 62102 1054 88413 91628 1055 59194 62409 1056 58887 62102 1057 89186 92401 1058 58887 62102 1059 89001 92216 1060 58887 62101 Additional ThsA homolog EZZ66975.1 1061 58887 62102 1062 89304 92519 1063 58887 62102 1064 89160 92375 1065 58830 62045 1066 89217 92432 1067 58887 62102 1068 58821 62036 1069 58821 62036 1070 58887 62102 1071 86561 89776 1072 58887 62102 1073 89302 92517 1074 58887 62102 1075 86128 89343 1076 58886 62101 1077 72244 75459 1078 58887 62102 1079 89253 92468 1080 58828 62043 1081 58887 62102 1082 58887 62102 1083 58887 62102 1084 58887 62102 1085 89217 92432 1086 89168 92383 1087 89216 92431 1088 58821 62036 1089 58887 62102 1090 58887 62102 1091 58821 62036 1092 58887 62101 1093 1088 4303 1094 89302 92517 1095 89258 92473 1096 58887 62102 1097 58886 62101 1098 58886 62101 1099 89236 92451 1100 58887 62102 1101 58887 62102 1102 58887 62102 1103 58887 62102 1104 11491 14706 1105 73114 76329 1106 58821 62036 1107 58887 62102 1108 27936 31151 1109 58887 62102 1110 58887 62102 1111 89217 92432 1112 86600 89815 1113 58887 62102 1114 58821 62036 1115 58887 62102 1116 58821 62036 1117 58821 62036 1118 58887 62102 1119 58887 62102 1120 90149 93364 1121 89243 92458 1122 58887 62102 1123 58887 62102 1124 58886 62101 1125 89302 92517 1126 86097 89312 1127 89258 92473 1128 58887 62102 1129 89253 92468 1130 58887 62102 1131 23191 26406 1132 58887 62102 1133 58887 62102 1134 58887 61046 1135 58887 62102 1136 28112 30271 1137 58886 62101 1138 58821 62036 1139 58886 62101 1140 58887 62102 1141 89302 92517 1142 58887 62102 1143 58887 62102 1144 89258 92473 1145 89302 92517 1146 89258 92473 1147 26639 29854 1148 58821 62036 1149 14243 17458 1150 58887 62102 1151 58887 62102 1152 89217 92432 1153 58886 62101 1154 89303 92518 1155 58886 62101 1156 58887 61046 1157 7935 11150 1158 7491 10706 1159 58887 62102 1160 89302 92517 1161 89283 92498 1162 3990 6149 1163 58887 62102 1164 3990 6149 1165 89302 92517 1166 89173 92388 1167 89167 92382 1168 58887 62102 1169 29744 32959 1170 58821 62036 1171 86117 89332 1172 89302 92517 1173 58887 62102 1174 58887 62102 1175 59150 62365 1176 89257 92472 1177 58887 61046 1178 89303 91462 1179 58887 62102 1180 58887 62102 1181 58831 62046 1182 58887 62102 1183 58887 62102 1184 59012 62227 1185 58887 62102 1186 42602 45817 1187 58821 62036 1188 58821 62036 1189 86600 89815 1190 58887 62102 1191 14572 17787 1192 58887 62102 1193 88664 91879 1194 58887 62102 1195 89172 92386 1196 87289 90503 1197 89172 92386 1198 58821 62036 1199 89216 92430 1200 58887 62101 1201 2720 5935 1202 58887 62101 1203 58887 62101 1204 58888 62103 1205 58887 62102 1206 89173 92388 1207 86562 89777 1208 89257 92472 1209 2720 5935 1210 58886 62101 1211 87715 90930 1212 17386 20601 1213 58887 62102 1214 89253 92468 1215 89302 92517 1216 58764 61979 1217 58652 61867 1218 58886 62101 1219 58887 62102 1220 58887 62102 1221 58887 62102 1222 58887 62102 1223 58887 62102 1224 11769 14984 1225 58877 62092 1226 329 2488 1227 329 2488 1228 89258 92473 1229 73104 76319 1230 11491 14706 1231 58887 62102 1232 58887 62102 1233 29744 32959 1234 58887 62102 1235 58887 62102 1236 58887 62102 1237 58821 62036 1238 58829 62044 1239 58821 62036 1240 58887 62102 1241 58887 62102 1242 58887 62102 1243 58887 61046 1244 89302 91461 1245 58887 62102 1246 58887 62102 1247 89302 92517 1248 58887 62102 1249 65904 69119 1250 58887 62102 1251 58887 62102 1252 58887 62102 1253 14572 17787 1254 89217 92432 1255 58887 62102 1256 58764 61979 1257 86241 89456 1258 58887 62102 1259 58887 62102 1260 58887 62102 1261 58887 62102 1262 58821 62036 1263 89303 92518 1264 58821 62036 1265 58887 62102 1266 58887 62102 1267 58887 62102 1268 58887 62102 1269 58887 62101 Additional ThsA homolog KAF14361.1 1270 58886 62101 1271 58887 62102 1272 89302 92517 1273 29744 32959 1274 89302 92517 1275 58821 62036 1276 58887 62102 1277 58831 62046 1278 58887 62102 1279 73077 76292 1280 73866 77081 1281 58530 61745 1282 58887 62102 1283 329 2488 1284 58821 62036 1285 89173 92388 1286 58887 62102 1287 58887 62102 1288 58887 62102 1289 58887 62102 1290 58887 62102 1291 58829 62044 1292 58829 62044 1293 58887 62102 1294 58831 62046 1295 2720 5935 1296 58887 62102 1297 89168 92383 1298 58887 62102 1299 89253 92468 1300 89258 91417 1301 89302 91461 1302 52248 55463 1303 58821 62036 1304 58887 62102 1305 7905 11120 1306 35425 38640 1307 89142 92357 1308 35344 38559 1309 58887 62102 1310 7905 11120 1311 7905 11120 1312 58887 62102 1313 58887 62102 1314 17266 20481 1315 89142 92357 1316 89180 92395 1317 89217 92432 1318 58887 62102 1319 58887 62102 1320 89216 92431 1321 87144 90359 1322 58887 62102 1323 11773 14988 1324 89258 92473 1325 59129 62344 1326 58887 62102 1327 89301 92516 1328 58887 62102 1329 58887 62102 1330 58887 62102 1331 58887 62102 1332 89302 92517 1333 58831 62046 1334 3137 6352 1335 58887 62102 1336 58887 62102 1337 58887 62102 1338 50208 53423 1339 88375 91590 1340 58887 62102 1341 58887 62102 1342 58887 62101 1343 58888 62103 1344 58888 62103 1345 58821 62036 1346 58887 62102 1347 58764 61979 1348 58887 62102 1349 58887 62102 1350 58887 62102 1351 89258 92473 1352 58887 62102 1353 89302 92517 1354 58887 62102 1355 58890 62105 1356 58887 62102 1357 58887 62102 1358 58887 61046 1359 58887 62102 1360 15133 18348 1361 58887 62102 1362 58887 62102 1363 58887 62102 1364 58887 62102 1365 58887 62102 1366 58887 62102 1367 89215 92430 1368 89173 92388 1369 58887 62102 1370 58887 62102 1371 11492 14706 Additional ThsA homolog KAI16288.1 1372 2720 5935 1373 58887 62102 1374 58887 62101 Additional ThsA homolog KAI26858.1 1375 58887 62101 Additional ThsA homolog KAI29885.1 1376 58887 62102 1377 58887 62102 1378 58887 62102 1379 89266 92481 1380 58887 62102 1381 89181 92396 1382 89181 92396 1383 58887 62102 1384 5826 9041 1385 58821 62036 1386 59195 62410 1387 17302 20517 1388 58887 62101 Additional ThsA homolog KAI62094.1 1389 58887 62102 1390 89257 92472 1391 23094 26309 1392 89302 92517 1393 58887 62102 1394 58887 62102 1395 58887 62102 1396 58887 62102 1397 2720 5935 1398 605684 608266 1399 2378987 2381503 1400 310640 313504 1401 1255726 1257790 1402 3826893 3828835 1403 1485 3579 1404 639688 643130 1405 94340 96396 1406 1102 3496 1407 13655 15725 1408 20332 22454 1409 974 3096 1410 374357 376479 1411 74618 76770 1412 1153 3114 1413 41277 43918 1414 69089 71153 1415 179848 182525 1416 11882 13968 1417 12651 15458 1418 3676 7033 1419 8280 10222 1420 2504 6185 1421 7387 9539 1422 47043 48958 1423 241192 243134 1424 1908 3989 1425 37118 42808 1426 1106 3500 1427 163 2785 1428 15686 18266 1429 46608 48550 1430 1044 3541 1431 8558 14045 1432 364692 367369 1433 28016 30521 1434 69058 71661 1435 123469 126673 1436 2503 6286 1437 10631 14414 1438 507977 509953 1439 259469 261537 1440 93299 100962 Additional ThsA homolog KQL33554.1 1441 244173 247473 1442 145624 150941 1443 184894 190211 1444 4452 6364 1445 128226 130138 1446 298909 301699 1447 4866 10841 1448 204433 206473 1449 16453 18427 1450 KSG00431.1 17001 22358 284 2213 6247 1451 KSO26598.1 17006 22363 284 124680 128714 1452 KSQ24408.1 17011 22368 284 62982 67016 1453 49733 52315 1454 282217 284200 1455 208592 217300 1456 41760 43858 1457 156668 159376 1458 733755 736830 1459 77736 79508 Additional ThsA homolog CEA11435.1 1460 77793 79565 Additional ThsA homolog CEA10431.1 1461 1337272 1339830 Additional ThsA homolog CUU52509.1 1462 87151 89092 1463 746 3553 1464 1614 4421 1465 2106 4913 1466 131 1607 1467 1 1432 1468 8 1931 1469 1077 3884 1470 295 2073 1471 2520 5327 1472 14947 17754 1473 131 2938 1474 4405 7212 1475 30227 33460 1476 244740 246667 1477 1617 5976 1478 445956 448097 1479 102 952 1480 450 1300 1481 55284 63357 1482 42235 50308 1483 55284 63357 1484 981 2861 1485 2598 11358 1486 7069 9713 1487 132958 135057 1488 8547 11191 1489 55235 57150 1490 935 3606 1491 935 3606 1492 2598 11358 1493 81585 84446 1494 155366 164406 1495 80319 82234 1496 7669 9584 1497 7624 9539 1498 10977 13784 1499 32084 34025 1500 16664 18605 1501 9359 11274 1502 5128 7069 1503 5113 7054 1504 38647 40562 1505 9513 11428 1506 15944 17885 1507 124218 126133 1508 17640 19555 1509 2202 4082 1510 229143 231058 1511 2404458 2405838 1512 817577 818957 1513 615084 616464 1514 152013 153393 1515 195157 198738 1516 10904 18356 1517 3334527 3335974 1518 1341773 1343206 1519 1844605 1846063 1520 584164 585641 1521 134834 136244 1522 2071675 2073130 1523 3926192 3927625 1524 3874800 3876233 1525 2458217 2461483 1526 4332366 4333799 1527 232808 234255 1528 160530 161977 1529 2481111 2482500 1530 273049 274496 1531 2639516 2640982 1532 2812522 2813955 1533 97573 99025 1534 2075549 2077004 1535 26 1071 1536 2133 3628 1537 84 1579 1538 1084123 1085545 1539 1084123 1085545 1540 11228 12661 1541 33036 34488 1542 29409 30859 1543 224969 226401 1544 235 1667 1545 2635439 2636872 1546 428631 430077 1547 25772 27249 1548 914 2336 1549 2463639 2465086 1550 1 862 1551 26558 27991 1552 34236 35669 1553 3765 5175 1554 1734329 1735762 1555 3509 4956 1556 2790710 2792159 1557 157503 158952 1558 1926980 1928429 1559 2177471 2178599 1560 1830 3263 1561 11498 12911 1562 1519 2929 1563 76033 77422 1564 112479 113937 1565 11530 12977 1566 2365 3812 1567 2349 3796 1568 10610 12057 1569 1347 2737 1570 61132 62524 1571 88884 90276 1572 89055 90447 1573 25772 27164 1574 51881 53291 1575 190051 191475 1576 977432 978898 1577 33964 35397 1578 207130 208563 1579 308501 309935 1580 124638 126071 1581 75914 77369 1582 88200 89655 1583 76300 77755 1584 25517 26932 1585 1192816 1194306 1586 150195 151627 1587 132737 134160 1588 1955978 1958455 1589 485658 488135 1590 278588 281125 1591 83713 86250 1592 279549 282086 1593 505157 507634 1594 505059 507536 1595 467434 469911 1596 505205 507682 1597 467455 469932 1598 467255 469732 1599 485332 487809 1600 3065568 3066757 1601 2559672 2561088 1602 1235298 1236673 1603 1860855 1862226 1604 348719 350085 1605 251369 252744 1606 33638 35013 1607 696957 698323 1608 90011 91494 1609 167083 168566 1610 190234 191717 1611 421379 422862 1612 1485164 1486647 1613 41076 42559 1614 68604 70087 1615 68623 70106 1616 115692 117175 1617 23055 24538 1618 22088 23571 1619 195988 197471 1620 8031 9514 1621 22905 24388 1622 655324 656726 1623 184 1586 1624 378494 379896 1625 2737817 2739300 1626 188075 189558 1627 217136 218619 1628 4679 6125 1629 618232 619597 1630 58857 60199 1631 25138 26419 1632 878549 880212 1633 1017795 1019207 1634 970449 971790 1635 279792 281124 1636 234529 235862 1637 43541 44877 1638 24580 25916 1639 26348 27675 1640 4106 5433 1641 432088 433415 1642 2015511 2016838 1643 198483 199621 1644 12987 14314 1645 10816 11954 1646 1 738 1647 45207 46534 1648 15185 16512 1649 11095 12233 1650 16291 17618 1651 922 2380 1652 80649 82053 1653 98527 99931 1654 80649 82053 1655 79320 80724 1656 5485 6910 1657 2391314 2392718 1658 98697 100101 1659 1629344 1630748 1660 1587489 1588893 1661 1758391 1759795 1662 1761238 1762642 1663 168103 169507 1664 98697 100101 1665 394942 396346 1666 80649 82053 1667 63660 64995 1668 157063 158363 1669 3080200 3081662 1670 73291 74729 1671 15431 16773 1672 367310 368729 1673 1719 3138 1674 86400 87735 1675 17508 18843 1676 552979 555192 1677 537536 538890 1678 50209 51614 1679 18293 19811 1680 855094 856495 1681 790419 791775 1682 151715 153071 1683 1035215 1036571 1684 61907 63263 1685 52334 53516 1686 51361 52543 1687 16395 17577 1688 15348 16530 1689 774460 775816 1690 951413 952763 1691 3133822 3135172 1692 1666481 1667831 1693 1054353 1055733 1694 3639547 3640897 1695 763489 764869 1696 4111 5512 1697 3956631 3958032 1698 10999 12349 1699 51317 52718 1700 51317 52718 1701 163388 164744 1702 207731 209087 1703 834005 835406 1704 825117 826473 1705 848376 849726 1706 51424 52804 1707 4446 5796 1708 4446 5796 1709 182936 184286 1710 179243 180593 1711 4446 5796 1712 4446 5796 1713 4417 5797 1714 179237 180587 1715 179433 180783 1716 4412 5762 1717 2681 4031 1718 181925 183305 1719 4443 5823 1720 51272 52652 1721 179390 180770 1722 4412 5762 1723 179263 180613 1724 53137 54487 1725 182219 183599 1726 347718 349068 1727 4443 5823 1728 179226 180606 1729 179431 180781 1730 4446 5796 1731 4446 5826 1732 181022 182402 1733 4446 5826 1734 179425 180775 1735 181377 182727 1736 4443 5793 1737 179233 180613 1738 4446 5826 1739 179233 180613 1740 4442 5792 1741 201348 202728 1742 179317 180667 1743 143710 145060 1744 56633 58013 1745 2681 4061 1746 2680 4060 1747 837068 838424 1748 837352 838708 1749 3604904 3606260 1750 2690 4070 1751 4446 5826 1752 179438 180788 1753 179224 180604 1754 4441 5791 1755 179249 180599 1756 4446 5826 1757 51372 52722 1758 4446 5826 1759 4425 5775 1760 4446 5796 1761 4446 5826 1762 4446 5796 1763 4425 5775 1764 179241 180591 1765 4412 5762 1766 179408 180788 1767 4441 5821 1768 179422 180772 1769 179114 180494 1770 179207 180587 1771 52653 54033 1772 4378 5758 1773 4437 5787 1774 179117 180467 1775 179226 180606 1776 179442 180792 1777 4414 5764 1778 179412 180792 1779 4446 5826 1780 180295 181645 1781 179423 180803 1782 51342 52722 1783 179412 180792 1784 4443 5793 1785 347708 349088 1786 4433 5783 1787 2676 4026 1788 2664 4044 1789 2671 4051 1790 179328 180708 1791 2675 4055 1792 247106 248456 1793 2662 4042 1794 137298 138678 1795 179122 180472 1796 181161 182511 1797 24097 26600 1798 1774206 1776730 1799 2995200 2997724 1800 215678 217047 1801 11 1365 1802 433369 434723 1803 116084 117447 1804 134 1383 1805 614798 616228 1806 2913 4396 1807 1236162 1237611 1808 52273 54418 1809 103276 104603 1810 103269 104596 1811 230894 232214 1812 32976 34498 1813 142644 144066 1814 2712 4835 1815 399088 400472 1816 239679 241054 1817 1893650 1894991 1818 392918 394286 1819 845508 848346 Additional ThsA homolog EHI61161.1 and EHI61160.1 1820 8273 9663 1821 5106952 5108412 1822 67402 68729 1823 385610 386991 1824 391196 392625 1825 10416 11602 1826 1 1463 1827 1773192 1774570 1828 93771 95197 1829 52979 54377 1830 169073 170436 1831 111454 112853 1832 295 1674 1833 52811 54295 1834 22017 23446 1835 46093 47494 1836 10780 12281 1837 578586 580026 1838 18949 20411 1839 1720 3139 1840 402136 403598 1841 17069 18543 1842 778829 780278 1843 239846 241330 1844 8796 9991 1845 8027 9442 1846 10583 11998 1847 10583 11998 1848 101221 102636 1849 108258 109673 1850 73923 75338 1851 9557 10972 1852 8731 10146 1853 10583 11998 1854 9409 10824 1855 3016 4431 1856 9405 10820 1857 10583 11998 1858 73814 75229 1859 10583 11998 1860 75727 77531 Additional ThsA homolog ERH59123.1 1861 2134919 2137041 1862 794273 796356 1863 27958 29914 1864 58581 61165 1865 25655 27734 1866 2276956 2281580 1867 214397 218349 1868 2202763 2205300 1869 72963 75500 1870 72753 75290 1871 335401 337938 1872 73026 75563 1873 96286 98823 1874 78963 81500 1875 626450 628927 1876 2144499 2147036 1877 2144499 2147036 1878 857876 860413 1879 190277 192754 1880 292755 295292 1881 332657 335194 1882 333878 336415 1883 294681 297218 1884 115649 118186 1885 332547 335084 1886 315968 318505 1887 299437 301974 1888 294697 297234 1889 415578 418115 1890 299437 301974 1891 919475 922012 1892 751819 754356 1893 414378 416915 1894 430384 432921 1895 1711734 1714271 1896 1827507 1830044 1897 807551 810088 1898 722094 724631 1899 2570589 2573126 1900 771268 773805 1901 769990 772527 1902 1718201 1720738 1903 763807 766344 1904 745301 747838 1905 1739780 1742317 1906 1808916 1811453 1907 1830255 1832792 1908 637302 639839 1909 2820435 2822972 1910 4138023 4140560 1911 952621 955158 1912 424893 427430 1913 4840540 4843077 1914 415549 418086 1915 2733635 2736172 1916 949017 951554 1917 328880 331417 1918 390295 392832 1919 977582 980119 1920 1830964 1833501 1921 767420 769957 1922 1643560 1646097 1923 1378858 1381395 1924 755487 758023 1925 881168 883705 1926 1825551 1828088 1927 738544 741081 1928 142767 145304 1929 964862 967399 1930 776235 778772 1931 655024 657561 1932 1874434 1876971 1933 624797 627334 1934 128934 131471 1935 136721 139258 1936 1726846 1729383 1937 823627 826164 1938 1937935 1940472 1939 1944646 1947183 1940 993314 995851 1941 821085 823622 1942 651372 653909 1943 958507 962380 1944 1037695 1040232 1945 2023087 2025624 1946 413025 415562 1947 925402 927939 1948 1824339 1826876 1949 1963306 1965843 1950 1723817 1726354 1951 1061869 1064406 1952 455375 457912 1953 99107 101644 1954 134788 137325 1955 415169 417706 1956 411378 413915 1957 1723198 1725735 1958 969440 971977 1959 119038 121575 1960 779299 781836 1961 837980 840517 1962 957690 960227 1963 647128 649665 1964 1304387 1306924 1965 118566 121103 1966 964548 967085 1967 1037220 1039757 1968 1765512 1768049 1969 959782 962319 1970 1631617 1634154 1971 955226 957763 1972 1051957 1054494 1973 404789 407326 1974 994327 996864 1975 422844 425381 1976 1057307 1059844 1977 752850 755387 1978 435581 438118 1979 415671 418208 1980 593893 596430 1981 2084900 2087438 1982 945151 947688 1983 699363 701900 1984 696094 698631 1985 1817777 1820314 1986 844786 847323 1987 140683 143220 1988 849733 852270 1989 840414 842951 1990 949044 951581 1991 415164 417701 1992 863928 866465 1993 415572 418109 1994 747799 750336 1995 418408 420945 1996 961748 964285 1997 419569 422106 1998 1015638 1018175 1999 889676 892213 2000 948468 951005 2001 1885183 1887720 2002 966038 968575 2003 960076 962613 2004 122404 124941 2005 1681006 1683543 2006 993136 995673 2007 998786 1001323 2008 423592 426129 2009 119049 121586 2010 967343 969880 2011 777273 779810 2012 333878 336415 2013 135104 137641 2014 414973 417510 2015 415129 417666 2016 953263 955800 2017 413367 415904 2018 422253 424790 2019 414879 417416 2020 332578 335115 2021 72684 74543 2022 991 3528 2023 72684 75221 2024 204036 206573 2025 51535 54072 2026 70748 73285 2027 166520 169057 2028 1268434 1270971 2029 327480 330017 2030 1970301 1972838 2031 6539 9076 2032 2178487 2181024 2033 3086900 3089437 2034 1764944 1767481 2035 892818 895355 2036 724298 726835 2037 2073702 2076179 2038 16866 19343 2039 11451 13928 2040 14738 17215 2041 22974 25451 2042 163601 166078 2043 55002 57479 2044 2345 4822 2045 1414 3891 2046 36221 38698 2047 11452 13929 2048 11452 13929 2049 11452 13929 2050 11455 13932 2051 11448 13925 2052 11452 13929 2053 4703 7180 2054 11452 13929 2055 56836 59313 2056 54998 57475 2057 11567 14044 2058 18041 20518 2059 11452 13929 2060 36219 38696 2061 11452 13929 2062 11450 13927 2063 120924 123401 2064 36218 38695 2065 11448 13925 2066 11452 13929 2067 11452 13929 2068 12006 14543 2069 117483 119960 2070 6719 9196 2071 9656 12133 2072 94488 96965 2073 2528497 2530974 2074 1447 5265 2075 307506 309710 2076 445336 447510 2077 197601 199542 2078 1343346 1345843 2079 1895 4396 2080 4806 7307 2081 19162 21686 2082 185651 188127 2083 166065 168541 2084 1030001 1032525 2085 158687 161211 2086 664126 666650 2087 1383218 1385739 2088 247534 250011 2089 19324 21800 2090 3794 6270 2091 205986 208462 2092 163830 166306 2093 17595 20119 2094 127282 129675 2095 140059 142319 2096 607545 609474 2097 17857 20090 2098 811700 814237 2099 571 3852 Additional ThsA homolog CDE34944.1 2100 1837917 1847352

The TIR domain gene, thsB, has a strong tendency (35%) to appear in multiple copies clustered around the thsA gene (FIG. 5A). Such duplication is typical to specificity-conferring genes in defense systems (such as the S subunit in type I R-M systems), where duplication followed by diversification serves for multiple specificities of the system. It is therefore possible that the TIR domain gene is responsible for identification of specific phage patterns, with multiple TIR domain genes serving for recognition of different phage components. Under this hypothesis, it is tempting to suggest that Thoeris is the prokaryotic ancestral form of pathogen-associated molecular pattern (PAMP) receptors.

A recent study showed that TIR domains can have enzymatic NAD+ hydrolase activities. In animal neurons, NAD+ hydrolase activity of the SARM1 TIR domain-containing gene leads to NAD+ depletion and generation of ADP-ribose and cyclic ADP-ribose that form signaling molecules regulating axonal degeneration. An E99A point mutation in the B. amyloliquefaciens Y2 KwaB protein, which aligns with the catalytic residue in the SARM1 NAD-cleaving TIR domain (FIG. 5E) abolished the protective activity of Thoeris (FIG. 5C). Moreover, point mutations in the ThsA NAD binding site predicted to abolish NAD binding also resulted in system inactivation (ThsA:N112A and ThsA:D100A/N115A for the B. cereus and B. amyloliquefaciens systems, respectively). These results mark NAD+ binding and hydrolysis as essential for the anti-phage activity of the Thoeris system.

Example 6 Genomic Identification and Analysis of the Druantia System

Objective:

Identify the candidate defense system based on the enrichment of the anchor COG1205.

Methods:

As above

Results:

Another system worthwhile of a brief discussion is the Druantia system (named after a deity from the Gallic mythology). This system is characterized by a very large protein (˜1800-2100aa) containing a DUF1998 (a domain of unknown function), as well as a helicase signature and a Walker A/B motif suggestive of ATP utilization. This polypeptide, named DruE, is encoded by a very large gene, named druE.

The druE gene is typically preceded by a set of highly variable genes with no recognizable domains or function prediction—either 3 genes sized 350-600aa each (Type I; druB, druC, and drub), or two genes sized 700aa-900aa (Type II; druX, druY), or a single large gene of 1000-1200aa (Type III; druF) (FIGS. 6A and 6B). The system is in some cases also preceded by a gene druA, annotated as DUF4338, comprising yet another domain of unknown function; and Type II systems are also associated with a cytosine methylase (FIG. 6A). In at least one instance, druA was downstream (3′) of the druE gene. (FIG. 6A—second embodiment of a Type I Druantia system)

A Type I system (FIG. 6B) cloned from E. coli UMEA 4076-1 into E. coli MG1655 rendered the engineered strain resistant against 4 of the 6 phages tested, and by serially deleting each of the 4 genes in this system, it was verified that all 4 are essential for its activity (FIG. 6C). Notably, DUF1998-containing genes are among the components of the recently reported DISARM and Dpd defense systems, where their function is also unknown. The sheer size of the Druantia system (12 kb of genomic DNA) was unexpected and surprising, suggesting a complex function, and the near-complete absence of recognizable domains in its encoded polypeptides is suggestive of a new mode of defense not shared by prokaryotic defense systems whose mechanism are currently understood.

Elements of the Druantia system (Types I, II, and III, are presented in Table 10.

TABLE 10 The Druantia Defense System and Components Thereof This table is presented in landscape orientation. Due to the number of columns, the table has been split into parts. Part A includes the first set of columns and therefore should be place to the left of subsequent parts (Part B and where relevant Part C). To avoid any doubt, the rows of the table in each part line up once the tables are placed together. (Part A) I A B C D E F G H #genes 1 assembly_accession taxid species_taxid organism_name infraspecific_name phylum genomic_accession Type identified 2 GCA_001372455.1 1505 1505 [Clostridium] sordellii R26833 Firmicutes CELG01000003.1 I 4 3 GCA_001516615.1 1765683 1765683 Acidibacillus ferrooxidans ITV01 Firmicutes LPVJ01000027.1 I 5 4 GCA_000367505.1 1315967 33934 Anoxybacillus flavithermus NBRC 109594 NBRC 109594 Firmicutes BARH01000005.1 I 4 5 GCA_001425485.1 1736375 1736375 Aureimonas sp. Leaf427 Leaf427 Proteobacteria LMQW01000021.1 I 3 6 GCA_001425525.1 1736384 1736384 Aureimonas sp. Leaf460 Leaf460 Proteobacteria LMQY01000066.1 I 3 7 GCA_001043655.1 1396 1396 Bacillus cereus LK9 Firmicutes LDUP01000008.1 I 4 8 GCA_000291115.1 1053212 1396 Bacillus cereus HuB5-5 HuB5-5 Firmicutes JH792120.1 I 4 9 GCA_001048695.1 1499688 1499688 Bacillus sp. LF1 LF1 Firmicutes CVRB01000003.1 I 4 10 GCA_000708005.1 1454376 28026 Bifidobacterium pseudocatenulatum IPLA36007 IPLA36007 Actinobacteria JEOD01000003.1 I 3 11 GCA_000513015.1 1161409 1161409 Bifidobacterium sp. MSTE12 MSTE12 Actinobacteria AZYA01000034.1 I 3 12 GCA_001402875.1 1079 1079 Blastochloris viridis ATCC 19567 Proteobacteria CP012946.1 I 3 13 GCA_001459775.1 1079 1079 Blastochloris viridis Proteobacteria LN907867.1 I 3 14 GCA_000757095.1 28450 28450 Burkholderia pseudomallei BDE Proteobacteria KN150937.1 I 4 15 GCA_000774465.1 1434201 28450 Burkholderia pseudomallei MSHR4299 MSHR4299 Proteobacteria KN323020.1 I 3 16 GCA_000152345.1 331978 28450 Burkholderia pseudomallei Pasteur 52237 Pasteur 52237 Proteobacteria CH899741.1 I 3 17 GCA_000757035.2 331978 28450 Burkholderia pseudomallei Pasteur 52237 Pasteur 52237 Proteobacteria CP009899.1 I 4 18 GCA_000808035.2 57975 57975 Burkholderia thailandensis 2003015869 Proteobacteria CP008914.2 I 3 19 GCA_001527035.1 101571 101571 Burkholderia ubonensis MSMB1607WGS Proteobacteria LPAR01000085.1 I 4 20 GCA_001528155.1 101571 101571 Burkholderia ubonensis MSMB1633WGS Proteobacteria LPAU01000139.1 I 3 21 GCA_001051235.2 1400863 1400862 Candidatus Competibacter denitrificans Run_A_D11 Run_A_D11 Proteobacteria CBTJ020000108.1 I 3 22 GCA_001292585.1 1509431 1509431 Candidatus Magnetomorum sp. HK-1 Proteobacteria JPDT01002867.1 I 4 23 GCA_000785145.1 1003181 1003181 Candidatus Thiomargarita nelsonii Proteobacteria JSZA01001556.1 I 3 24 GCA_000952105.1 536 536 Chromobacterium violaceum L_1B5_1 Proteobacteria JYGI01000049.1 I 5 25 GCA_000577895.1 1216932 1216932 Clostridium bornimense type strain: M2/40 Firmicutes HG917869.1 I 4 26 GCA_000724245.2 1443123 1542 Clostridium novyi B str. ATCC 27606 ATCC 27606 Firmicutes JENW01000064.1 I 3 27 GCA_000190355.1 556261 556261 Clostridium sp. D5 D5 Firmicutes GL870812.1 I 3 28 GCA_000021925.1 272564 49338 Desulfitobacterium hafniense DCB-2 DCB-2 Firmicutes CP001336.1 I 3 29 GCA_000024205.1 485916 58138 Desulfotomaculum acetoxidans DSM 771 DSM 771 Firmicutes CP001720.1 I 3 30 GCA_001545095.1 1514105 1514105 Erysipelothrix sp. LV19 LV19 Firmicutes CP013213.1 I 3 31 GCA_000797815.1 562 562 Escherichia coli CVM N41556PS Proteobacteria JUBQ01000038.1 I 5 32 GCA_000797835.1 562 562 Escherichia coli CVM N33804PS Proteobacteria JUDE01000009.1 I 5 33 GCA_000797855.1 562 562 Escherichia coli CVM N33806PS Proteobacteria JUDD01000028.1 I 3 34 GCA_000798155.1 562 562 Escherichia coli CVM N34077PS Proteobacteria JUCZ01000011.1 I 5 35 GCA_000798415.1 562 562 Escherichia coli CVM N34557PS Proteobacteria JUCU01000008.1 I 4 36 GCA_001077875.1 562 562 Escherichia coli KIC-2 Proteobacteria LFJZ01000059.1 I 5 37 GCA_001420165.1 562 562 Escherichia coli 449 Proteobacteria LIVL01000002.1 I 5 38 GCA_001442495.1 562 562 Escherichia coli YD786 Proteobacteria CP013112.1 I 5 39 GCA_001463535.1 562 562 Escherichia coli 50673720 Proteobacteria LNHW01000058.1 I 5 40 GCA_001576545.1 562 562 Escherichia coli G76 Proteobacteria LOPR01000035.1 I 5 41 GCA_000194295.2 869676 562 Escherichia coli 97.0264 97.0264 Proteobacteria AEZP02000004.1 I 5 42 GCA_000458275.1 1281086 562 Escherichia coli HVH 153 (3-9344314) HVH 153 (3-9344314) Proteobacteria KE700289.1 I 5 43 GCA_000456745.1 1280996 562 Escherichia coli HVH 46 (4-2758776) HVH 46 (4-2758776) Proteobacteria KE699287.1 I 5 44 GCA_000456745.1 1280996 562 Escherichia coli HVH 46 (4-2758776) HVH 46 (4-2758776) Proteobacteria KE699283.1 I 5 45 GCA_000607285.1 1409786 562 Escherichia coli K02 K02 Proteobacteria KK097723.1 I 5 46 GCA_000459655.1 1281158 562 Escherichia coli KOEGE 33 (68a) KOEGE 33 (68a) Proteobacteria KE701247.1 I 5 47 GCA_000350745.1 1169334 562 Escherichia coli KTE15 KTE15 Proteobacteria KB732282.1 I 5 48 GCA_000352905.1 1181729 562 Escherichia coli KTE183 KTE183 Proteobacteria KB733173.1 I 5 49 GCA_000407945.1 1169352 562 Escherichia coli KTE34 KTE34 Proteobacteria KE136741.1 I 5 50 GCA_000407745.1 1169320 562 Escherichia coli KTE35 KTE35 Proteobacteria KE136604.1 I 5 51 GCA_000351665.1 1182679 562 Escherichia coli KTE72 KTE72 Proteobacteria KB733389.1 I 5 52 GCA_000351805.1 1182691 562 Escherichia coli KTE86 KTE86 Proteobacteria KB732864.1 I 5 53 GCA_000326625.1 1169366 562 Escherichia coli KTE88 KTE88 Proteobacteria ANYV01000069.1 I 5 54 GCA_000408505.1 1182693 562 Escherichia coli KTE89 KTE89 Proteobacteria KE137143.1 I 5 55 GCA_000351845.1 1182696 562 Escherichia coli KTE93 KTE93 Proteobacteria KB732902.1 I 5 56 GCA_000576655.1 1314835 562 Escherichia coli MP1 MP1 Proteobacteria JEMI01000044.1 I 5 57 GCA_000179175.1 679207 562 Escherichia coli MS 107-1 MS 107-1 Proteobacteria ADWV01000005.1 I 5 58 GCA_000179095.1 796392 562 Escherichia coli MS 79-10 MS 79-10 Proteobacteria ADWR01000035.1 I 3 59 GCA_000364305.1 1235805 562 Escherichia coli SWW33 SWW33 Proteobacteria KB822527.1 I 5 60 GCA_000176635.2 656443 562 Escherichia coli TA271 TA271 Proteobacteria GL884297.1 I 4 61 GCA_000460495.1 1281201 562 Escherichia coli UMEA 3163-1 UMEA 3163-1 Proteobacteria KE701783.1 I 5 62 GCA_000461335.1 1281248 562 Escherichia coli UMEA 3391-1 UMEA 3391-1 Proteobacteria KE702395.1 I 5 63 GCA_000461855.1 1281278 562 Escherichia coli UMEA 4076-1 UMEA 4076-1 Proteobacteria KE702725.1 I 5 64 GCA_000434955.1 1262994 1262994 Firmicutes bacterium CAG:65 Firmicutes FR882409.1 I 4 65 GCA_000750005.1 1430331 1430331 Geobacillus icigianus G1w1 Firmicutes JPYA01000201.1 I 4 66 GCA_001587475.1 1586290 1586290 Geobacillus sp. B4113_201601 B4113_201601 Firmicutes LQYX01000099.1 I 4 67 GCA_001025095.1 1659191 1659191 Geobacillus sp. T6 T6 Firmicutes LDNZ01000120.1 I 3 68 GCA_000174795.2 550542 550542 Geobacillus sp. Y412MC52 Y412MC52 Firmicutes CP002442.1 I 4 69 GCA_000024705.1 544556 544556 Geobacillus sp. Y412MC61 Y412MC61 Firmicutes CP001794.1 I 4 70 GCA_000743495.1 1422 1422 Geobacillus stearothermophilus 22 Firmicutes JQCS01000005.1 I 4 71 GCA_000749985.1 1422 1422 Geobacillus stearothermophilus 53 Firmicutes JPYV01000046.1 I 4 72 GCA_000154705.2 411684 244596 Hoeflea phototrophica DFL-43 DFL-43 Proteobacteria CM002917.1 I 3 73 GCA_001428625.1 1736490 1736490 Hydrogenophaga sp. Root209 Root209 Proteobacteria LMIE01000033.1 I 3 74 GCA_000230975.3 670307 53399 Hyphomicrobium denitrificans 1NES1 1NES1 Proteobacteria CP005587.1 I 3 75 GCA_001078195.1 883119 571 Klebsiella oxytoca 10-5244 10-5244 Proteobacteria KQ235774.1 I 5 76 GCA_000492915.1 1328370 573 Klebsiella pneumoniae MGH 32 MGH 32 Proteobacteria KI535619.1 I 4 77 GCA_000018685.1 357809 66219 Lachnoclostridium phytofermentans ISDg ISDg Firmicutes CP000885.1 I 3 78 GCA_000403475.2 1235799 1235799 Lachnospiraceae bacterium 3-2 3-2 Firmicutes KE159795.1 I 4 79 GCA_000170755.1 313628 256847 Lentisphaera araneosa HTCC2155 HTCC2155 Lentisphaerae ABCK01000024.1 I 3 80 GCA_000502535.1 1287273 1287273 Mesorhizobium sp. LNJC391B00 LNJC391B00 Proteobacteria AYWI01000025.1 I 3 81 GCA_001508455.1 1641382 1641382 Methanocalculus sp. 52_23 Euryarchaeota LGGJ01000025.1 I 4 82 GCA_000243255.1 937775 2315 Methanoplanus limicola DSM 2279 DSM 2279 Euryarchaeota CM001436.1 I 4 83 GCA_000979685.1 2209 2209 Methanosarcina mazei 3.H.A.2.4 Euryarchaeota JJPP01000022.1 I 4 84 GCA_000455825.1 1333857 300020 Microbacterium maritypicum MF109 MF109 Actinobacteria ATAO01000002.1 I 3 85 GCA_001314225.1 1714373 1714373 Microbacterium sp. No. 7 No. 7 Actinobacteria CP012697.1 I 3 86 GCA_000509385.1 1344956 1344956 Microbacteriumsp. TS-1 TS-1 Actinobacteria BASQ01000001.1 I 3 87 GCA_000143085.1 105559 473531 Nitrosococcus watsonii C-113 C-113 Proteobacteria CP002087.1 I 3 88 GCA_001044495.1 1628279 1628279 Nitrospina sp. SCGC_AAA799_C22 Nitrospinae JZKJ01000047.1 I 3 89 GCA_000225995.2 1003237 28077 Nitrospirillum amazonense Y2 Y2 Proteobacteria AFBX01000767.1 I 3 90 GCA_000442555.1 1117108 44250 Paenibacillus alvei TS-15 TS-15 Firmicutes ATMT01000002.1 I 4 91 GCA_000024685.1 481743 481743 Paenibacillus sp. Y412MC10 Y412MC10 Firmicutes CP001793.1 I 4 92 GCA_000803315.1 1507808 554 Pectobacterium carotovorum subsp. actinidiae KKH3 Proteobacteria JRMH01000001.1 I 5 93 GCA_000754765.1 78398 554 Pectobacterium carotovorum subsp. odoriferum NCPPB 3839 Proteobacteria JQOG01000013.1 I 3 94 GCA_000271665.2 1192197 365349 Pelosinus fermentans JBW45 JBW45 Firmicutes CP010978.1 I 4 95 GCA_001298735.1 1677858 1677858 Propionispora sp. Iso2/2 Firmicutes CYSP01000005.1 I 4 96 GCA_001450755.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07239 Proteobacteria LLNK01000035.1 I 4 97 GCA_001451905.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07508 Proteobacteria LLQO01000185.1 I 3 98 GCA_001452525.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07690 Proteobacteria LLSK01000268.1 I 4 99 GCA_001548135.1 287 287 Pseudomonas aeruginosa 8380 Proteobacteria AP014839.2 I 5 100 GCA_000647595.1 1339263 287 Pseudomonas aeruginosa 148 148 Proteobacteria ATAJ01000067.1 I 4 101 GCA_000359505.1 1280938 287 Pseudomonas aeruginosa B136-33 B136-33 Proteobacteria CP004061.1 I 3 102 GCA_000480905.1 1402553 287 Pseudomonas aeruginosa BL12 BL12 Proteobacteria KI518868.1 I 5 103 GCA_000629605.1 1418235 287 Pseudomonas aeruginosa BWH049 BWH049 Proteobacteria KK213281.1 I 5 104 GCA_000481145.1 1402528 287 Pseudomonas aeruginosa BWHPSA028 BWHPSA028 Proteobacteria KI518960.1 I 5 105 GCA_000455705.1 1333855 287 Pseudomonas aeruginosa WC55 WC55 Proteobacteria ATAQ01000308.1 I 4 106 GCA_000934565.1 294 294 Pseudomonas fluorescens PCL1751 Proteobacteria CP010896.1 I 5 107 GCA_000497385.1 1399145 303 Pseudomonas putida S610 S610 Proteobacteria AYJQ01000058.1 I 5 108 GCA_000367825.1 1227924 303 Pseudomonas putida TRO1 TRO1 Proteobacteria APBQ01000198.1 I 5 109 GCA_000812405.1 1582493 1582493 Pseudomonas sp. PI1 PI1 Proteobacteria JWMC01000074.1 I 3 110 GCA_000737225.1 317 317 Pseudomonas syringae UB0390 Proteobacteria JPQV01000021.1 I 5 111 GCA_001587135.1 305 305 Ralstonia solanacearum UW163 Proteobacteria CP012941.1 I 5 112 GCA_001423045.1 1736327 1736327 Rathayibacter sp. Leaf296 Leaf296 Actinobacteria LMNR01000001.1 I 3 113 GCA_001425345.1 1736357 1736357 Rhizobium sp. Leaf383 Leaf383 Proteobacteria LMQD01000012.1 I 3 114 GCA_001424065.1 1736358 1736358 Rhizobium sp. Leaf384 Leaf384 Proteobacteria LMQE01000005.1 I 3 115 GCA_000982715.1 191292 191292 Rhodococcus aetherivorans IcdP1 Actinobacteria CP011341.1 I 3 116 GCA_000341815.1 1278077 334542 Rhodococcus qingshengii BKS 20-40 BKS 20-40 Actinobacteria AODN01000014.1 I 3 117 GCA_000824945.1 1830 1830 Rhodococcus ruber Actinobacteria CCSD01000049.1 I 4 118 GCA_000508185.1 1207055 1207055 Sphingobium sp. C100 C100 Proteobacteria AYOY01000167.1 I 3 119 GCA_000158915.1 457427 998084 Streptomyces himastatinicus ATCC 53653 ATCC 53653 Actinobacteria GG657754.1 I 3 120 GCA_000227705.3 717605 377615 Thermobacillus composti KWC4 KWC4 Firmicutes CP003255.1 I 3 121 GCA_000176455.1 675809 666 Vibrio cholerae CT 5369-93 CT 5369-93 Proteobacteria ADAL01000217.1 I 5 122 GCA_000746665.1 672 672 Vibrio vulnificus 93U204 Proteobacteria CP009261.1 I 5 123 GCA_001116865.1 631 631 Yersinia intermedia 58735 Proteobacteria CQER01000007.1 I 5 124 GCA_001299035.1 1806494 1806494 Achromobacter sp. 2789STDY5608612 2789STDY5608612 Proteobacteria CYTE01000002.1 II 4 125 GCA_001509495.1 135947 135946 Actinoplanes awajinensis subsp. mycoplanecinus NRRL B-16712 Actinobacteria LLZH01000223.1 II 3 126 GCA_000389965.1 649831 649831 Actinoplanes sp. N902-109 N902-109 Actinobacteria CP005929.1 II 3 127 GCA_000219665.2 1050720 358 Agrobacterium tumefaciens F2 F2 Proteobacteria AFSD01000008.1 II 4 128 GCA_000018325.1 350688 461876 Alkaliphilus oremlandii OhILAs OhILAs Firmicutes CP000853.1 II 3 129 GCA_001443605.1 1307839 1307839 bacterium L21-Spi-D4 L21-Spi-D4 Bacteroidetes CP013118.1 II 3 130 GCA_000244935.1 319003 319003 Bradyrhizobium sp. WSM1253 WSM1253 Proteobacteria JH600073.1 II 4 131 GCA_000144605.1 633149 74313 Brevundimonas subvibrioides ATCC 15264 ATCC 15264 Proteobacteria CP002102.1 II 4 132 GCA_000182255.1 513051 87883 Burkholderia multivorans CGD1 CGD1 Proteobacteria ACFB01000002.1 II 3 133 GCA_001532035.1 1207504 1207504 Burkholderia pseudomultivorans MSMB368WGS Proteobacteria LPJR01000034.1 II 4 134 GCA_001424345.1 1736287 1736287 Burkholderia sp. Leaf177 Leaf177 Proteobacteria LMPF01000022.1 II 4 135 GCA_001526735.1 101571 101571 Burkholderia ubonensis MSMB1601WGS Proteobacteria LPAL01000127.1 II 3 136 GCA_001526945.1 101571 101571 Burkholderia ubonensis MSMB1791WGS Proteobacteria LPAY01000146.1 II 3 137 GCA_001529895.1 101571 101571 Burkholderia ubonensis MSMB1216WGS Proteobacteria LPEG01000082.1 II 4 138 GCA_001531945.1 101571 101571 Burkholderia ubonensis MSMB609WGS Proteobacteria LPKF01000002.1 II 4 139 GCA_001534345.1 101571 101571 Burkholderia ubonensis MSMB1466WGS Proteobacteria LPMV01000059.1 II 3 140 GCA_001426725.1 1736459 1736459 Cellulomonas sp. Root137 Root137 Actinobacteria LMFG01000005.1 II 3 141 GCA_000016085.1 290318 1094 Chlorobium phaeovibrioides DSM 265 DSM 265 Chlorobi CP000607.1 II 3 142 GCA_001563495.1 267125 267125 Chryseobacterium kwangjuense KJ1R5 Bacteroidetes LPUR01000001.1 II 3 143 GCA_001281005.1 546 546 Citrobacter freundii P10159 Proteobacteria CP012554.1 II 4 144 GCA_000158355.2 469595 469595 Citrobacter sp. 30_2 30_2 Proteobacteria KI391991.1 II 4 145 GCA_000759755.1 1114921 67827 Citrobacter werkmanii NBRC 105721 NBRC 105721 Proteobacteria BBMW01000007.1 II 4 146 GCA_001515955.1 1734399 1734399 Clostridia bacterium BRH_c25 Firmicutes LOES01000090.1 II 3 147 GCA_001584185.1 279113 279113 Collimonas pratensis Ter91 Proteobacteria CP013234.1 II 4 148 GCA_000725405.1 1274 1274 Dermacoccus nishinomiyaensis M25 Actinobacteria CP008889.1 II 3 149 GCA_000023565.1 561229 556 Dickeya chrysanthemi Ech1591 Ech1591 Proteobacteria CP001655.1 II 4 150 GCA_001011625.1 548 548 Enterobacter aerogenes GN02761 Proteobacteria LDBO01000027.1 II 4 151 GCA_001518055.1 548 548 Enterobacter aerogenes GN02761 Proteobacteria LRCC01000127.1 II 4 152 GCA_001518435.1 548 548 Enterobacter aerogenes GN05782 Proteobacteria LRCY01000101.1 II 4 153 GCA_001011955.1 61645 61645 Enterobacter asburiae GN02208 Proteobacteria LDCK01000014.1 II 3 154 GCA_000958325.1 550 550 Enterobacter cloacae 44517 Proteobacteria JZXX01000013.1 II 4 155 GCA_000958345.1 550 550 Enterobacter cloacae 44524 Proteobacteria JZXW01000013.1 II 4 156 GCA_000958385.1 550 550 Enterobacter cloacae 44541 Proteobacteria JZXU01000010.1 II 4 157 GCA_000965895.1 550 550 Enterobacter cloacae CIDEIMsCOL13 Proteobacteria JZKX01000010.1 II 4 158 GCA_000965925.1 550 550 Enterobacter cloacae CIDEIMsCOL16 Proteobacteria JZLA01000009.1 II 4 159 GCA_000965975.1 550 550 Enterobacter cloacae CIDEIMsCOL18 Proteobacteria JZLC01000004.1 II 4 160 GCA_000965985.1 550 550 Enterobacter cloacae CIDEIMsCOL19 Proteobacteria JZLD01000016.1 II 4 161 GCA_000966045.1 550 550 Enterobacter cloacae CIDEIMsCOL6 Proteobacteria JZKQ01000011.1 II 4 162 GCA_000966055.1 550 550 Enterobacter cloacae CIDEIMsCOL7 Proteobacteria JZKR01000007.1 II 4 163 GCA_000966085.1 550 550 Enterobacter cloacae CIDEIMsCOL8 Proteobacteria JZKS01000009.1 II 4 164 GCA_000966125.1 550 550 Enterobacter cloacae CIDEIMsCOL11 Proteobacteria JZKV01000018.1 II 4 165 GCA_000968675.1 550 550 Enterobacter cloacae CIDEIMsCOL15 Proteobacteria JZKZ01000021.1 II 4 166 GCA_000235765.3 1104326 550 Enterobacter cloacae subsp. dissolvens SDM SDM Proteobacteria CP003678.1 II 4 167 GCA_001472385.1 299766 158836 Enterobacter hormaechei subsp. steigerwaltii SMART_539 Proteobacteria LPPV01000001.1 II 4 168 GCA_001473115.1 299766 158836 Enterobacter hormaechei subsp. steigerwaltii SMART_1078 Proteobacteria LPOL01000074.1 II 4 169 GCA_000568075.1 314330 314330 Enterobacter sp. DC1 DC1 Proteobacteria AZUA01000002.1 II 4 170 GCA_000010305.1 379066 173480 Gemmatimonas aurantiaca T-27 T-27 Gemmatimonadetes AP009153.1 II 4 171 GCA_000298195.1 1108045 83341 Gordonia rhizosphera NBRC 16068 NBRC 16068 Actinobacteria BAHC01000188.1 II 3 172 GCA_001275395.1 1704290 1704290 Hapalosiphon sp. MRB220 MRB220 Cyanobacteria LIRN01000101.1 II 3 173 GCA_000567145.1 1400164 573 Klebsiella pneumoniae BIDMC 46b BIDMC 46b Proteobacteria KK036716.1 II 4 174 GCA_000529775.1 1379689 573 Klebsiella pneumoniae subsp. pneumoniae T69 T69 Proteobacteria HG518478.1 II 4 175 GCA_000169115.1 247639 247639 marine gamma proteobacterium HTCC2080 HTCC2080 Proteobacteria AAVV01000004.1 II 3 176 GCA_001424165.1 1736272 1736272 Massilia sp. Leaf139 Leaf139 Proteobacteria LMOJ01000003.1 II 4 177 GCA_000970225.1 1434114 2209 Methanosarcina mazei LYC LYC Euryarchaeota CP009513.1 II 3 178 GCA_000757795.1 693986 334852 Methylobacterium oryzae CBMB2C CBMB20 Proteobacteria CP003811.1 II 4 179 GCA_001542815.1 925818 925818 Methylobacterium sp. AMS5 AMS5 Proteobacteria CP006992.1 II 4 180 GCA_000834175.1 1587523 1587523 Microbacterium sp. MEJ108Y MEJ108Y Actinobacteria JXQX01000022.1 II 3 181 GCA_000568915.1 457406 457406 Micromonospora sp. M42 M42 Actinobacteria KK037233.1 II 3 182 GCA_000306785.1 477641 477641 Modestobacter marinus BC501 Actinobacteria FO203431.1 II 3 183 GCA_000307755.2 1239989 582 Morganella morganii SC01 SC01 Proteobacteria AMWL02000021.1 II 4 184 GCA_001570445.1 228230 228230 Mycobacterium canariasense JCM15298 Actinobacteria BCSY01000069.1 II 3 185 GCA_001307545.1 1766 1766 Mycobacterium fortuitum CT6 Actinobacteria CP011269.1 II 3 186 GCA_001187505.1 134601 134601 Mycobacterium goodii X7B Actinobacteria CP012150.1 II 3 187 GCA_001570485.1 59813 59813 Mycobacterium novocastrense JCM18114 Actinobacteria BCTA01000023.1 II 3 188 GCA_000024365.1 479431 53461 Nakamurella multipartita DSM 44233 DSM 44233 Actinobacteria CP001737.1 II 3 189 GCA_000963985.1 1628190 1628190 Pantoea sp. BL1 BL1 Proteobacteria JZRH01000052.1 II 4 190 GCA_001447385.1 1745182 1745182 Paracoccussp. MKU1 MKU1 Proteobacteria LLWQ01000019.1 II 3 191 GCA_000808515.1 555 554 Pectobacterium carotovorum subsp. carotovorum BC T5 Proteobacteria JUJS01000001.1 II 4 192 GCA_000294535.1 1218933 554 Pectobacterium carotovorum subsp. carotovorum PCC21 PCC21 Proteobacteria CP003776.1 II 4 193 GCA_001026985.1 82985 82985 Pragia fontium 24613 Proteobacteria CP010423.1 II 4 194 GCA_000829255.1 287 287 Pseudomonas aeruginosa NCGM 1984 Proteobacteria AP014646.1 II 3 195 GCA_000829275.1 287 287 Pseudomonas aeruginosa NCGM 1900 Proteobacteria AP014622.1 II 3 196 GCA_001449645.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07177 Proteobacteria LLMG01000101.1 II 3 197 GCA_001449765.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07186 Proteobacteria LLMQ01000093.1 II 3 198 GCA_001450265.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07378 Proteobacteria LLOC01000126.1 II 4 199 GCA_001450505.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07170 Proteobacteria LLLZ01000038.1 II 4 200 GCA_001450545.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07176 Proteobacteria LLMF01000085.1 II 3 201 GCA_001450995.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07387 Proteobacteria LLOL01000018.1 II 4 202 GCA_001451125.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07406 Proteobacteria LLOT01000015.1 II 4 203 GCA_001451485.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07425 Proteobacteria LLPM01000023.1 II 4 204 GCA_001451605.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07486 Proteobacteria LLPSO1000097.1 II 4 205 GCA_001451625.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07487 Proteobacteria LLPTO1000056.1 II 4 206 GCA_001451815.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07498 Proteobacteria LLQE01000017.1 II 4 207 GCA_001451885.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07504 Proteobacteria LLQK01000005.1 II 4 208 GCA_001451985.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07622 Proteobacteria LLQT01000086.1 II 4 209 GCA_001452025.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07626 Proteobacteria LLQX01000033.1 II 4 210 GCA_001452045.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07627 Proteobacteria LLQY01000018.1 II 4 211 GCA_001452305.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07645 Proteobacteria LLRQ01000036.1 II 4 212 GCA_001452325.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07647 Proteobacteria LLRS01000111.1 II 3 213 GCA_001452575.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07694 Proteobacteria LLSO01000025.1 II 4 214 GCA_001452675.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07703 Proteobacteria LLSX01000034.1 II 4 215 GCA_001453345.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07624 Proteobacteria LLQV01000015.1 II 4 216 GCA_001453365.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07625 Proteobacteria LLQW01000076.1 II 4 217 GCA_001453415.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07632 Proteobacteria LLRD01000075.1 II 3 218 GCA_001453485.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07646 Proteobacteria LLRR01000027.1 II 4 219 GCA_001453565.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07679 Proteobacteria LLRZ01000123.1 II 4 220 GCA_001453595.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07683 Proteobacteria LLSD01000091.1 II 4 221 GCA_001454045.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07276 Proteobacteria LLUCO1000021.1 II 4 222 GCA_001454305.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07309 Proteobacteria LLUY01000055.1 II 4 223 GCA_001454595.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07268 Proteobacteria LLTZ01000033.1 II 4 224 GCA_000148745.1 798130 287 Pseudomonas aeruginosa 39016 39016 Proteobacteria CM001020.1 II 3 225 GCA_000481745.1 1402498 287 Pseudomonas aeruginosa 6077 6077 Proteobacteria KI519216.1 II 4 226 GCA_000480985.1 1402549 287 Pseudomonas aeruginosa BL08 BL08 Proteobacteria KI518899.1 II 4 227 GCA_000480865.1 1402555 287 Pseudomonas aeruginosa BL14 BL14 Proteobacteria KI518844.1 II 4 228 GCA_000480805.1 1402558 287 Pseudomonas aeruginosa BL17 BL17 Proteobacteria KI518822.1 II 4 229 GCA_000629125.1 1447538 287 Pseudomonas aeruginosa BWH030 BWH030 Proteobacteria KK212308.1 II 4 230 GCA_000629585.1 1418236 287 Pseudomonas aeruginosa BWH050 BWH050 Proteobacteria KK213277.1 II 4 231 GCA_000481585.1 1402506 287 Pseudomonas aeruginosa BWHPSA006 BWHPSA006 Proteobacteria KI519145.1 II 4 232 GCA_000480435.1 1402576 287 Pseudomonas aeruginosa C48 C48 Proteobacteria KI518703.1 II 4 233 GCA_000481805.1 1402495 287 Pseudomonas aeruginosa JJ692 JJ692 Proteobacteria KI519252.1 II 4 234 GCA_000513235.1 1306165 287 Pseudomonas aeruginosa MH27 MH27 Proteobacteria CBTR010000015.1 II 3 235 GCA_000284555.1 1089456 287 Pseudomonas aeruginosa NCGM2.S1 NCGM2.S1 Proteobacteria AP012280.1 II 3 236 GCA_000481785.1 1402496 287 Pseudomonas aeruginosa U2504 U2504 Proteobacteria KI519240.1 II 4 237 GCA_000786485.1 1341645 287 Pseudomonas aeruginosa WS394 WS394 Proteobacteria CBYA010000116.1 II 4 238 GCA_000012265.1 220664 380021 Pseudomonas protegens Pf-5 Pf-5 Proteobacteria CP000076.1 II 4 239 GCA_000334035.1 1204471 317 Pseudomonas syringae BRIP34876 BRIP34876 Proteobacteria KB316468.1 II 4 240 GCA_000334055.1 1205751 317 Pseudomonas syringae BRIP34881 BRIP34881 Proteobacteria KB316535.1 II 4 241 GCA_000765305.1 323 251701 Pseudomonas syringae pv. tomato NYS-T1 Proteobacteria KN265560.1 II 4 242 GCA_001518465.1 323 251701 Pseudomonas syringae pv. tomato A9 Proteobacteria LNKY01000101.1 II 4 243 GCA_001518695.1 323 251701 Pseudomonas syringae pv. tomato 407 Proteobacteria LNKZ01000069.1 II 4 244 GCA_000172895.1 546231 251701 Pseudomonas syringae pv. tomato T1 T1 Proteobacteria ABSM01000016.1 II 4 245 GCA_000471625.1 1354303 248452 Psychrobacter aquaticus CMS 56 CMS 56 Proteobacteria AUSW01000035.1 II 3 246 GCA_001297245.1 1538158 1538158 Rhizobium acidisoli FH23 Proteobacteria LJSR01000033.1 II 4 247 GCA_001425345.1 1736357 1736357 Rhizobium sp. Leaf383 Leaf383 Proteobacteria LMQD01000026.1 II 3 248 GCA_001507595.1 1685379 1685379 Ruegeria sp. ZGT118 ZGT118 Proteobacteria LQBQ01000001.1 II 3 249 GCA_001474275.1 28901 28901 Salmonella enterica CVM 43767 Proteobacteria JYQK01000006.1 II 4 250 GCA_001569645.1 28901 28901 Salmonella enterica NGUA06 Proteobacteria BCOE01000051.1 II 4 251 GCA_001569685.1 28901 28901 Salmonella enterica NGUA08 Proteobacteria BCOG01000098.1 II 4 252 GCA_001569765.1 28901 28901 Salmonella enterica NGUA12 Proteobacteria BCOK01000075.1 II 4 253 GCA_001569785.1 28901 28901 Salmonella enterica NGUA13 Proteobacteria BCOL01000051.1 II 4 254 GCA_001569865.1 28901 28901 Salmonella enterica NGUA17 Proteobacteria BCOP01000026.1 II 4 255 GCA_001569905.1 28901 28901 Salmonella enterica NGUA19 Proteobacteria BCOR01000051.1 II 4 256 GCA_001570025.1 28901 28901 Salmonella enterica NGUA25 Proteobacteria BCOX01000056.1 II 4 257 GCA_001570065.1 28901 28901 Salmonella enterica NGUA27 Proteobacteria BCOZ01000088.1 II 4 258 GCA_001570105.1 28901 28901 Salmonella enterica NGUA29 Proteobacteria BCPB01000051.1 II 4 259 GCA_001570145.1 28901 28901 Salmonella enterica NGUA31 Proteobacteria BCPD01000090.1 II 4 260 GCA_001570205.1 28901 28901 Salmonella enterica NGUA34 Proteobacteria BCPG01000042.1 II 4 261 GCA_001448925.1 1245396 28901 Salmonella enterica subsp. arizonae serovar 62:z36:- str. 5335/86 5335/86 Proteobacteria LHTK01000001.1 II 4 262 GCA_000756465.1 1386967 28901 Salmonella enterica subsp. arizonae serovar 62:z36:- str. RKS2983 Proteobacteria CP006693.1 II 4 RKS2983 263 GCA_000748945.1 1173471 28901 Salmonella enterica subsp.enterica serovar Bareilly str. CFSAN000235 Proteobacteria JRCT01000004.1 II 4 CFSAN000235 264 GCA_000748965.1 1173472 28901 Salmonella enterica subsp. enterica serovar Bareilly str. CFSAN000236 Proteobacteria JRCS01000009.1 II 3 CFSAN000236 265 GCA_000749105.1 1182179 28901 Salmonella enterica subsp. enterica serovar Bareilly str. CFSAN000754 Proteobacteria JRCL01000011.1 II 4 CFSAN000754 266 GCA_000504705.2 1192560 28901 Salmonella enterica subsp. enterica serovar Cubana str. 76814 76814 Proteobacteria KI635640.1 II 4 267 GCA_000430125.1 1271863 28901 Salmonella enterica subsp. enterica serovar Cubana str. CFSAN002050 Proteobacteria CP006055.1 II 4 CFSAN002050 268 GCA_000500025.1 1314885 28901 Salmonella enterica subsp. enterica serovar Cubana str. CVM42234 Proteobacteria ATEU01000012.1 II 4 CVM42234 269 GCA_000487835.1 1194151 28901 Salmonella enterica subsp. enterica serovar Norwich str. CFSAN001077 Proteobacteria APAM01000054.1 II 4 CFSAN001077 270 GCA_000486285.1 984254 28901 Salmonella enterica subsp. enterica serovar Virchow str. ATCC ATCC 51955 Proteobacteria AOXL01000118.1 II 4 51955 271 GCA_000171535.2 465517 28901 Salmonella enterica subsp. enterica serovar Virchow str. SL491 SL491 Proteobacteria ABFH02000001.1 II 3 272 GCA_000516855.1 1249525 28901 Salmonella enterica subsp. enterica serovar Virchow str. SVQ1 SVQ1 Proteobacteria KI911915.1 II 4 273 GCA_001409135.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5462388 Proteobacteria LN890518.1 II 4 274 GCA_001409155.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5712384 Proteobacteria LN890522.1 II 4 275 GCA_001409175.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5712385 Proteobacteria LN890524.1 II 4 276 GCA_001409195.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5462413 Proteobacteria LN890520.1 II 4 277 GCA_000230505.1 936157 28901 Salmonella enterica subsp. enterica serovar Weltevreden str. 2007-60-3289-1 Proteobacteria FR775246.1 II 4 2007-60-3289-1 278 GCA_000171495.1 465518 28901 Salmonella enterica subsp. enterica serovar Weltevreden str. HI_N05-537 Proteobacteria ABFF01000011.1 II 4 HI_N05-537 279 GCA_001188155.1 59205 28901 Salmonella enterica subsp. houtenae 01-0133 Proteobacteria JWSP01000004.1 II 4 280 GCA_000486245.1 1173948 28901 Salmonella enterica subsp. houtenae serovar 50:g, z51:- str. 01- 01-0133 Proteobacteria AOXJ01000080.1 II 3 0133 281 GCA_000521925.1 1400186 615 Serratia marcescens BIDMC 44 BIDMC 44 Proteobacteria KI929263.1 II 4 282 GCA_000633695.1 1445865 615 Serratia marcescens BIDMC 81 BIDMC 81 Proteobacteria KK214290.1 II 4 283 GCA_000006965.1 266834 382 Sinorhizobium meliloti 1021 1021 Proteobacteria AL591688.1 II 3 284 GCA_000346065.1 1286640 382 Sinorhizobium meliloti 2011 2011 Proteobacteria CP004140.1 II 3 285 GCA_001461685.1 1358418 1358418 Sinorhizobium sp. GL28 GL28 Proteobacteria AUSZ01000302.1 II 4 286 GCA_000280865.1 1160718 114687 Streptomyces auratus AGR0001 AGR0001 Actinobacteria JH725387.1 II 3 287 GCA_001188955.1 1894 1894 Streptomyces aureofaciens ATCC 10762 Actinobacteria KQ257755.1 II 3 288 GCA_000222625.2 1051645 29497 Vibrio splendidus ATCC 33789 ATCC 33789 Proteobacteria AFWG01000006.1 II 3 289 GCA_001139945.1 29483 29483 Yersinia aldovae IP08791 Proteobacteria CQEH01000010.1 II 4 290 GCA_001104645.1 631 631 Yersinia intermedia FCF335 Proteobacteria CQCT01000008.1 II 4 291 GCA_001144105.1 633 633 Yersinia pseudotuberculosis N912 Proteobacteria CQDI01000025.1 II 4 292 GCA_001166025.1 633 633 Yersinia pseudotuberculosis OK5586 Proteobacteria CQEB01000011.1 II 4 293 GCA_001319685.1 633 633 Yersinia pseudotuberculosis IP32921 Proteobacteria CIFM01000002.1 II 4 294 GCA_000834455.1 29485 29485 Yersinia rohdei YRA Proteobacteria CP009787.1 II 4 295 GCA_000173775.1 527004 29485 Yersinia rohdei ATCC 43380 ATCC 43380 Proteobacteria ACCD01000010.1 II 4 296 GCA_001581075.1 178900 178900 Acetobacter cerevisiae LMG 1608 Proteobacteria LHZY01000057.1 III 2 297 GCA_001077655.1 470 470 Acinetobacter baumannii Ab04-mff Proteobacteria CP012006.1 III 2 298 GCA_001276085.1 470 470 Acinetobacter baumannii 5021_13 Proteobacteria LGYV01000089.1 III 2 299 GCA_001441545.1 470 470 Acinetobacter baumannii MRSN15038 Proteobacteria LMZX01000006.1 III 2 300 GCA_001441555.1 470 470 Acinetobacter baumannii MRSN20315 Proteobacteria LMZV01000012.1 III 2 301 GCA_001441565.1 470 470 Acinetobacter baumannii MRSN15084 Proteobacteria LMZW01000004.1 III 2 302 GCA_001441625.1 470 470 Acinetobacter baumannii MRSN20755 Proteobacteria LMYO01000010.1 III 2 303 GCA_001441645.1 470 470 Acinetobacter baumannii MRSN7081 Proteobacteria LMZY01000005.1 III 2 304 GCA_000581835.1 1310681 470 Acinetobacter baumannii 1542444 1542444 Proteobacteria JEYA01000001.1 III 2 305 GCA_000581295.1 1310630 470 Acinetobacter baumannii 99063 99063 Proteobacteria JEXJ01000065.1 III 2 306 GCA_000335595.1 903937 470 Acinetobacter baumannii AA-014 AA-014 Proteobacteria AMGA01000013.1 III 2 307 GCA_000369165.1 1217630 470 Acinetobacter baumannii NIPH 201 NIPH 201 Proteobacteria KB849843.1 III 2 308 GCA_000369205.1 1217633 470 Acinetobacter baumannii NIPH 335 NIPH 335 Proteobacteria KB849885.1 III 2 309 GCA_000369265.1 1217627 470 Acinetobacter baumannii NIPH 67 NIPH 67 Proteobacteria KB849903.1 III 2 310 GCA_000309235.1 903926 470 Acinetobacter baumannii OIFC035 OIFC035 Proteobacteria AMTB01000008.1 III 2 311 GCA_000305235.1 903902 470 Acinetobacter baumannii OIFC098 OIFC098 Proteobacteria AMDF01000045.1 III 2 312 GCA_000368485.1 1217656 106649 Acinetobacter guillouiae NIPH 991 NIPH 991 Proteobacteria KB849456.1 III 2 313 GCA_000369685.1 1144665 1144665 Acinetobacter sp. CIP 102136 CIP 102136 Proteobacteria KB850142.1 III 2 314 GCA_000368425.1 1144669 1144669 Acinetobacter sp. CIP 102637 CIP 102637 Proteobacteria KB849435.1 III 2 315 GCA_000154465.1 445970 28117 Alistipes putredinis DSM 17216 DSM 17216 Bacteroidetes DS499580.1 III 2 316 GCA_001578515.1 28108 28108 Alteromonas macleodii HOT1A3 Proteobacteria CP012202.1 III 2 317 GCA_000300175.1 1004787 28108 Alteromonas macleodii str. ‘Balearic Sea AD45’ Balearic Sea AD45 Proteobacteria CP003873.1 III 2 318 GCA_000204015.1 715226 76891 Asticcacaulis biprosthecum C19 C19 Proteobacteria GL883078.1 III 2 319 GCA_000495835.1 1282361 1282361 Asticcacaulis sp. AC402 AC402 Proteobacteria AWGC01000023.1 III 2 320 GCA_000061505.1 62928 62928 Azoarcus sp. BH72 BH72 Proteobacteria AM406670.1 III 2 321 GCA_000817975.1 1328314 353 Azotobacter chroococcum NCIMB 8003 NCIMB 8003 Proteobacteria CP010421.1 III 2 322 GCA_001286525.1 817 817 Bacteroides fragilis BE1 Bacteroidetes LN877293.1 III 2 323 GCA_000210835.1 862962 817 Bacteroides fragilis 638R 638R Bacteroidetes FQ312004.1 III 2 324 GCA_000598705.1 1339297 817 Bacteroides fragilis str. 1009-4-F #10 1009-4-F #10 Bacteroidetes JGED01000021.1 III 2 325 GCA_000599285.2 1339296 817 Bacteroides fragilis str. 1009-4-F #7 1009-4-F #7 Bacteroidetes JGEE01000031.1 III 2 326 GCA_000598325.1 1339309 817 Bacteroides fragilis str. 3783N1-2 3783N1-2 Bacteroidetes JGCS01000280.1 III 2 327 GCA_000599065.2 1339310 817 Bacteroides fragilis str. 3783N1-6 3783N1-6 Bacteroidetes JGEU01000034.1 III 2 328 GCA_000598605.1 1339311 817 Bacteroides fragilis str. 3783N1-8 3783N1-8 Bacteroidetes JGDR01000052.1 III 2 329 GCA_000598345.1 1339312 817 Bacteroides fragilis str. 3783N2-1 3783N2-1 Bacteroidetes JGCT01000263.1 III 2 330 GCA_000598165.1 1339313 817 Bacteroides fragilis str. 3976T7 3976T7 Bacteroidetes JGCU01000310.1 III 2 331 GCA_000154525.1 449673 46506 Bacteroides stercoris ATCC 43183 ATCC 43183 Bacteroidetes DS499662.1 III 2 332 GCA_001578555.1 820 820 Bacteroides uniformis KLE1607 Bacteroidetes KQ968311.1 III 2 333 GCA_000224655.1 693988 693988 Bilophila sp. 4_1_30 4_1_30 Proteobacteria JH114233.1 III 2 334 GCA_000173575.1 516466 516466 Burkholderia sp. H160 H160 Proteobacteria ABYL01000008.1 III 2 335 GCA_001527325.1 101571 101571 Burkholderia ubonensis MSMB2054 Proteobacteria LOZC01000078.1 III 2 336 GCA_001527345.1 101571 101571 Burkholderia ubonensis MSMB2055 Proteobacteria LOZD01000059.1 III 2 337 GCA_001527425.1 101571 101571 Burkholderia ubonensis MSMB2061 Proteobacteria LOZH01000090.1 III 2 338 GCA_001529135.1 101571 101571 Burkholderia ubonensis MSMB1212WGS Proteobacteria LPED01000119.1 III 2 339 GCA_001531435.1 101571 101571 Burkholderia ubonensis MSMB1508WGS Proteobacteria LPFT01000065.1 III 2 340 GCA_000531125.1 1400861 1400860 Candidatus Contendobacter odensis Run_B_J11 Run_B_J11 Proteobacteria CBTK010000022.1 III 2 341 GCA_001292585.1 1509431 1509431 Candidatus Magnetomorum sp. HK-1 Proteobacteria JPDT01000292.1 III 2 342 GCA_000477035.2 1348585 76594 Cellulophaga baltica NN016038 NN016038 Bacteroidetes CP009887.1 III 2 343 GCA_000601485.1 1192034 51 Chondromyces apiculatus DSM 436 DSM 436 Proteobacteria ASRX01000002.1 III 2 344 GCA_001421435.1 1735672 1735672 Chryseobacterium sp. Leaf201 Leaf201 Bacteroidetes LMKA01000095.1 III 2 345 GCA_001281005.1 546 546 Citrobacter freundii P10159 Proteobacteria CP012554.1 III 2 346 GCA_001316675.1 546 546 Citrobacter freundii ST62:944112508 Proteobacteria LJEB01000070.1 III 2 347 GCA_001034465.1 1686377 1686377 Citrobacter sp. MGH100 MGH100 Proteobacteria KQ089800.1 III 2 348 GCA_001037515.1 1686383 1686383 Citrobacter sp. MGH110 MGH110 Proteobacteria KQ089830.1 III 2 349 GCA_000828895.1 1458425 1458425 Comamonadaceae bacterium A1 A1 Proteobacteria AP014568.1 III 2 350 GCA_001277275.1 28141 28141 Cronobacter sakazakii NCTC 8155 Proteobacteria CP012253.1 III 2 351 GCA_000339015.1 956149 28141 Cronobacter sakazakii SP291 Sp291 Proteobacteria CP004091.1 III 2 352 GCA_000961725.1 1629713 1629713 Desulfobulbaceae bacterium BRH_c16a Proteobacteria LADS01000053.1 III 2 353 GCA_001011305.1 548 548 Enterobacter aerogenes GN02420 Proteobacteria LDBI01000017.1 III 2 354 GCA_001011595.1 548 548 Enterobacter aerogenes GN03959 Proteobacteria LDBV01000046.1 III 2 355 GCA_001030055.1 548 548 Enterobacter aerogenes UCI98 Proteobacteria LESY01000010.1 III 2 356 GCA_001030185.1 548 548 Enterobacter aerogenes UCI97 Proteobacteria KQ087587.1 III 2 357 GCA_001022755.1 61645 61645 Enterobacter asburiae GN02692 Proteobacteria LEDI01000011.1 III 2 358 GCA_000952375.1 550 550 Enterobacter cloacae MNCRE12 Proteobacteria JYME01000006.1 III 2 359 GCA_001022875.1 550 550 Enterobacter cloacae GN02773 Proteobacteria LEDE01000006.1 III 2 360 GCA_001030145.1 550 550 Enterobacter cloacae UCI86 Proteobacteria KQ087579.1 III 2 361 GCA_001030195.1 550 550 Enterobacter cloacae UCI85 Proteobacteria KQ087593.1 III 2 362 GCA_001518245.1 550 550 Enterobacter cloacae GN03848 Proteobacteria LRCM01000015.1 III 2 363 GCA_001518625.1 550 550 Enterobacter cloacae GN04311 Proteobacteria LRCQ01000112.1 III 2 364 GCA_001317055.1 336306 550 Enterobacter cloacae subsp. cloacae ST433:953102574 Proteobacteria LJE001000030.1 III 2 365 GCA_000492435.1 1329856 550 Enterobacter cloacae UCICRE 12 UCICRE 12 Proteobacteria KI535461.1 III 2 366 GCA_001037885.1 1686400 1686400 Enterobacter sp. BIDMC109 BIDMC109 Proteobacteria KQ090002.1 III 2 367 GCA_000735105.1 421072 421072 Epilithonimonas lactis LMG 24401 Bacteroidetes JPLY01000004.1 III 2 368 GCA_001077815.1 1648404 1648404 Erythrobacter sp. s21-N3 s21-N3 Proteobacteria CP011310.1 III 2 369 GCA_000181515.1 161528 161528 Erythrobacter sp. SD-21 SD-21 Proteobacteria ABCG01000002.1 III 2 370 GCA_000695175.1 562 562 Escherichia coli MI10-01 Proteobacteria JHEZ01000002.1 III 2 371 GCA_000731455.1 562 562 Escherichia coli D6-117_07.11 Proteobacteria HG976958.1 III 2 372 GCA_000797755.1 562 562 Escherichia coli CVM N33443PS Proteobacteria JUDP01000006.1 III 2 373 GCA_000797775.1 562 562 Escherichia coli CVM N34322PS Proteobacteria JUCY01000038.1 III 2 374 GCA_000797995.1 562 562 Escherichia coli CVM N36613PS Proteobacteria JUCH01000028.1 III 2 375 GCA_000798215.1 562 562 Escherichia coli CVM N36620PS Proteobacteria JUCG01000047.1 III 2 376 GCA_000798415.1 562 562 Escherichia coli CVM N34557PS Proteobacteria JUCU01000037.1 III 2 377 GCA_000798575.1 562 562 Escherichia coli CVM N36404PS Proteobacteria JUCJ01000011.1 III 2 378 GCA_000819265.1 562 562 Escherichia coli CVM N38428PS Proteobacteria JWYX01000074.1 III 2 379 GCA_000819645.1 562 562 Escherichia coli Proteobacteria CP010315.1 III 2 380 GCA_000934865.1 562 562 Escherichia coli ATCC 35150 Proteobacteria JXUS01000117.1 III 2 381 GCA_000935075.1 562 562 Escherichia coli ATCC 35150 NalR Proteobacteria JYIO01000082.1 III 2 382 GCA_000953765.1 562 562 Escherichia coli MCI_507 Proteobacteria JZSD01000085.1 III 2 383 GCA_000965565.1 562 562 Escherichia coli St. Olav172 Proteobacteria JZDY01000017.1 III 2 384 GCA_000965655.1 562 562 Escherichia coli St. Olav173 Proteobacteria JZDZ01000061.1 III 2 385 GCA_001012075.1 562 562 Escherichia coli CFSAN026805 Proteobacteria LDCU01000029.1 III 2 386 GCA_001030405.1 562 562 Escherichia coli MGH108 Proteobacteria KQ087687.1 III 2 387 GCA_001191125.1 562 562 Escherichia coli CFSAN026804 Proteobacteria LGZD01000035.1 III 2 388 GCA_001191185.1 562 562 Escherichia coli CFSAN026847 Proteobacteria LGZE01000020.1 III 2 389 GCA_001191195.1 562 562 Escherichia coli CFSAN026846 Proteobacteria LGZI01000146.1 III 2 390 GCA_001191525.1 562 562 Escherichia coli CFSAN026848 Proteobacteria LHAB01000019.1 III 2 391 GCA_001263735.1 562 562 Escherichia coli INSLA289 Proteobacteria LHAT01000022.1 III 2 392 GCA_001281685.1 562 562 Escherichia coli STEC 771 Proteobacteria LGAZ01000005.1 III 2 393 GCA_001281725.1 562 562 Escherichia coli STEC 2868 Proteobacteria LGBJ01000009.1 III 2 394 GCA_001281755.1 562 562 Escherichia coli E09/224 Proteobacteria LGBP01000024.1 III 2 395 GCA_001281775.1 562 562 Escherichia coli STEC 989 Proteobacteria LGBA01000013.1 III 2 396 GCA_001281795.1 562 562 Escherichia coli STEC 994 Proteobacteria LGBB01000045.1 III 2 397 GCA_001281815.1 562 562 Escherichia coli STEC 1109 Proteobacteria LGBC01000012.1 III 2 398 GCA_001281845.1 562 562 Escherichia coli STEC 2075 Proteobacteria LGBD01000011.1 III 2 399 GCA_001281855.1 562 562 Escherichia coli STEC 2112 Proteobacteria LGBE01000001.1 III 2 400 GCA_001281885.1 562 562 Escherichia coli STEC 2257 Proteobacteria LGBF01000023.1 III 2 401 GCA_001281905.1 562 562 Escherichia coli STEC 2410 Proteobacteria LGBG01000006.1 III 2 402 GCA_001281915.1 562 562 Escherichia coli STEC 2821 Proteobacteria LGBI01000140.1 III 2 403 GCA_001281925.1 562 562 Escherichia coli STEC 2667 Proteobacteria LGBH01000007.1 III 2 404 GCA_001281965.1 562 562 Escherichia coli E09/10 Proteobacteria LGBK01000008.1 III 2 405 GCA_001281985.1 562 562 Escherichia coli EPEC 287 Proteobacteria LGBL01000025.1 III 2 406 GCA_001281995.1 562 562 Escherichia coli EPEC 393 Proteobacteria LGBM01000019.1 III 2 407 GCA_001282025.1 562 562 Escherichia coli EPEC 1572 Proteobacteria LGBN01000001.1 III 2 408 GCA_001282035.1 562 562 Escherichia coli EPEC 1669 Proteobacteria LGBO01000067.1 III 2 409 GCA_001282065.1 562 562 Escherichia coli STEC 2820 Proteobacteria LGBQ01000003.1 III 2 410 GCA_001284665.1 562 562 Escherichia coli 503459_aEPEC Proteobacteria CXZO01000020.1 III 2 411 GCA_001297965.1 562 562 Escherichia coli STEC 915 Proteobacteria LFUH01000101.1 III 2 412 GCA_001297975.1 562 562 Escherichia coli STEC 343 Proteobacteria LDOZ01000007.1 III 2 413 GCA_001297985.1 562 562 Escherichia coli STEC 623 Proteobacteria LFUB01000011.1 III 2 414 GCA_001297995.1 562 562 Escherichia coli STEC 605 Proteobacteria LFUA01000020.1 III 2 415 GCA_001309715.1 562 562 Escherichia coli PARC447 Proteobacteria LECJ01000192.1 III 2 416 GCA_001309815.1 562 562 Escherichia coli 03-6430 Proteobacteria LEAB01000117.1 III 2 417 GCA_001309835.1 562 562 Escherichia coli PARC449 Proteobacteria LEAC01000125.1 III 2 418 GCA_001309885.1 562 562 Escherichia coli CO6CE900 Proteobacteria LEAE01000148.1 III 2 419 GCA_001309895.1 562 562 Escherichia coli CO6CE1353 Proteobacteria LEAF01000141.1 III 2 420 GCA_001309905.1 562 562 Escherichia coli CO6CE1943 Proteobacteria LEAG01000046.1 III 2 421 GCA_001309925.1 562 562 Escherichia coli CO6CE2940 Proteobacteria LEAH01000084.1 III 2 422 GCA_001309965.1 562 562 Escherichia coli CO283 Proteobacteria LEAI01000013.1 III 2 423 GCA_001309985.1 562 562 Escherichia coli 1935 Proteobacteria LEAD01000163.1 III 2 424 GCA_001309995.1 562 562 Escherichia coli E0122 Proteobacteria LEAJ01000145.1 III 2 425 GCA_001310005.1 562 562 Escherichia coli LCDC7236 Proteobacteria LEAK01000079.1 III 2 426 GCA_001484355.1 562 562 Escherichia coli AY71 Proteobacteria LLYJ01000063.1 III 2 427 GCA_001484485.1 562 562 Escherichia coli AZ74 Proteobacteria LLYM01000074.1 III 2 428 GCA_001518365.1 562 562 Escherichia coli GN02740 Proteobacteria LQZU01000211.1 III 2 429 GCA_001518955.1 562 562 Escherichia coli SEC470 Proteobacteria CP013962.1 III 2 430 GCA_001519395.1 562 562 Escherichia coli GN02270 Proteobacteria LQST01000002.1 III 2 431 GCA_001519635.1 562 562 Escherichia coli GN02354 Proteobacteria LQTF01000057.1 III 2 432 GCA_001519685.1 562 562 Escherichia coli GN02094 Proteobacteria LQSC01000049.1 III 2 433 GCA_001519775.1 562 562 Escherichia coli GN02140 Proteobacteria LQSF01000099.1 III 2 434 GCA_001519815.1 562 562 Escherichia coli GN02298 Proteobacteria LQSX01000125.1 III 2 435 GCA_001519835.1 562 562 Escherichia coli GN02290 Proteobacteria LQSW01000149.1 III 2 436 GCA_001519975.1 562 562 Escherichia coli GN02415 Proteobacteria LQTQ01000061.1 III 2 437 GCA_001520115.1 562 562 Escherichia coli GN02343 Proteobacteria LQTC01000029.1 III 2 438 GCA_001520255.1 562 562 Escherichia coli GN03578 Proteobacteria LQVZ01000203.1 III 2 439 GCA_001520375.1 562 562 Escherichia coli GN02460 Proteobacteria LQTZ01000058.1 III 2 440 GCA_001520435.1 562 562 Escherichia coli GN02430 Proteobacteria LQTU01000172.1 III 2 441 GCA_001520495.1 562 562 Escherichia coli GN02426 Proteobacteria LQTS01000163.1 III 2 442 GCA_001520575.1 562 562 Escherichia coli GN02674 Proteobacteria LQVA01000248.1 III 2 443 GCA_001520835.1 562 562 Escherichia coli GN02707 Proteobacteria LQVE01000001.1 III 2 444 GCA_001520935.1 562 562 Escherichia coli GN03218 Proteobacteria LQVQ01000300.1 III 2 445 GCA_001520995.1 562 562 Escherichia coli GN02953 Proteobacteria LQVM01000164.1 III 2 446 GCA_001521225.1 562 562 Escherichia coli GN02350 Proteobacteria LQTE01000128.1 III 2 447 GCA_001521635.1 562 562 Escherichia coli GN04153 Proteobacteria LQWI01000295.1 III 2 448 GCA_001521695.1 562 562 Escherichia coli GN03624 Proteobacteria LQWB01000001.1 III 2 449 GCA_001558995.1 562 562 Escherichia coli JEONG-1266 Proteobacteria CP014314.1 III 2 450 GCA_001562855.1 562 562 Escherichia coli JPH493 Proteobacteria KQ961400.1 III 2 451 GCA_001571675.1 562 562 Escherichia coli UC5 Proteobacteria LRXT01000038.1 III 2 452 GCA_001575305.1 562 562 Escherichia coli G19 Proteobacteria LONY01000024.1 III 2 453 GCA_001575755.1 562 562 Escherichia coli G111 Proteobacteria LONJ01000019.1 III 2 454 GCA_001575775.1 562 562 Escherichia coli G114 Proteobacteria LONK01000063.1 III 2 455 GCA_001575885.1 562 562 Escherichia coli G169 Proteobacteria LONQ01000006.1 III 2 456 GCA_001576035.1 562 562 Escherichia coli G27 Proteobacteria LOOY01000022.1 III 2 457 GCA_001576105.1 562 562 Escherichia coli G314 Proteobacteria LOPH01000016.1 III 2 458 GCA_001576135.1 562 562 Escherichia coli G313 Proteobacteria LOPG01000001.1 III 2 459 GCA_001576325.1 562 562 Escherichia coli G28 Proteobacteria LOOZ010000011.1 III 2 460 GCA_001576375.1 562 562 Escherichia coli G26 Proteobacteria LOOX01000037.1 III 2 461 GCA_001576385.1 562 562 Escherichia coli G35 Proteobacteria LOPL01000002.1 III 2 462 GCA_000303235.2 1005441 562 Escherichia coli 0.1304 0.1304 Proteobacteria JH943332.1 III 2 463 GCA_000462305.2 1081888 562 Escherichia coli 08BKT055439 08BKT055439 Proteobacteria AVRI01000134.1 III 2 464 GCA_000462325.2 1081895 562 Escherichia coli 08BKT77219 08BKT77219 Proteobacteria AVRJ01000125.1 III 2 465 GCA_000462345.2 1081894 562 Escherichia coli 09BKT024447 09BKT024447 Proteobacteria AVRK01000010.1 III 2 466 GCA_000461935.2 1081889 562 Escherichia coli 09BKT076207 09BKT076207 Proteobacteria AVQR01000067.1 III 2 467 GCA_000340455.2 1081887 562 Escherichia coli 09BKT078844 09BKT078844 Proteobacteria KB453231.1 III 2 468 GCA_000304855.2 1005469 562 Escherichia coli 10.0821 10.0821 Proteobacteria AMTO01000004.1 III 2 469 GCA_000305415.2 1005466 562 Escherichia coli 10.0833 10.0833 Proteobacteria JH969098.1 III 2 470 GCA_000305435.2 1005467 562 Escherichia coli 10.0869 10.0869 Proteobacteria JH968727.1 III 2 471 GCA_000601155.1 1444132 562 Escherichia coli 1-110-08_S3_C1 1-110-08_S3_C1 Proteobacteria JHDN01000003.1 III 2 472 GCA_000601175.1 1444160 562 Escherichia coli 1-110-08_S3_C2 1-110-08_S3_C2 Proteobacteria JHDM01000091.1 III 2 473 GCA_000601335.1 1444190 562 Escherichia coli 1-110-08_S3_C3 1-110-08_S3_C3 Proteobacteria JHDL01000001.1 III 2 474 GCA_000485635.1 1268976 562 Escherichia coli 113290 113290 Proteobacteria KI521766.1 III 2 475 GCA_000627435.1 1444135 562 Escherichia coli 1-250-04_S3_C1 1-250-04_S3_C1 Proteobacteria JJLU01000053.1 III 2 476 GCA_000713815.1 1444163 562 Escherichia coli 1-250-04_S3_C2 1-250-04_S3_C2 Proteobacteria JOSR01000197.1 III 2 477 GCA_000687105.1 1444147 562 Escherichia coli 2-005-03_S3_C2 2-005-03_S3_C2 Proteobacteria JMGT01000075.1 III 2 478 GCA_000700165.1 1444093 562 Escherichia coli 2-011-08_S1_C3 2-011-08_S1_C3 Proteobacteria JNNA01000159.1 III 2 479 GCA_000700605.1 1444119 562 Escherichia coli 2-052-05_S3_C1 2-052-05_S3_C1 Proteobacteria JNNF01000074.1 III 2 480 GCA_000713655.1 1444149 562 Escherichia coli 2-052-05_S3_C2 2-052-05_S3_C2 Proteobacteria JOSJ01000098.1 III 2 481 GCA_000703605.1 1444177 562 Escherichia coli 2-052-05_S3_C3 2-052-05_S3_C3 Proteobacteria JNOZ01000070.1 III 2 482 GCA_000703725.1 1444150 562 Escherichia coli 2-156-04_S3_C2 2-156-04_S3_C2 Proteobacteria JNPK01000053.1 III 2 483 GCA_000713695.1 1444123 562 Escherichia coli 2-222-05_S3_C1 2-222-05_S3_C1 Proteobacteria JOSM01000267.1 III 2 484 GCA_000713735.1 1444153 562 Escherichia coli 2-222-05_S3_C2 2-222-05_S3_C2 Proteobacteria JOSN01000002.1 III 2 485 GCA_000704145.1 1444181 562 Escherichia coli 2-222-05_S3_C3 2-222-05_S3_C3 Proteobacteria JNQN01000045.1 III 2 486 GCA_000711475.1 1444042 562 Escherichia coli 2-316-03_S1_C1 2-316-03_S1_C1 Proteobacteria JOMW01000194.1 III 2 487 GCA_000711415.1 1444071 562 Escherichia coli 2-316-03_S1_C2 2-316-03_S1_C2 Proteobacteria JOMX01000159.1 III 2 488 GCA_000355155.2 1116119 562 Escherichia coli 2719100 2719100 Proteobacteria AQFG01000015.1 III 2 489 GCA_000354775.2 1116010 562 Escherichia coli 2747800 2747800 Proteobacteria AQEA01000085.1 III 2 490 GCA_000354875.1 1116011 562 Escherichia coli 2749250 2749250 Proteobacteria AQDZ01000107.1 III 2 491 GCA_000355615.2 1116014 562 Escherichia coli 2770900 2770900 Proteobacteria AQDW01000088.1 III 2 492 GCA_000354995.2 1116021 562 Escherichia coli 2860050 2860050 Proteobacteria AQDL01000093.1 III 2 493 GCA_000356445.2 1116022 562 Escherichia coli 2860650 2860650 Proteobacteria APXG01000173.1 III 2 494 GCA_000356505.2 1116027 562 Escherichia coli 2866350 2866350 Proteobacteria APXJ01000134.1 III 2 495 GCA_000462245.2 1207038 562 Escherichia coli 2886-75 2886-75 Proteobacteria AVRR01000001.1 III 2 496 GCA_000304815.2 1005450 562 Escherichia coli 3.4870 3.4870 Proteobacteria JH970627.1 III 2 497 GCA_000335195.2 1051347 562 Escherichia coli 3.4880 3.4880 Proteobacteria AOET01000122.1 III 2 498 GCA_000700285.1 1444059 562 Escherichia coli 3-475-03_S1_C1 3-475-03_S1_C1 Proteobacteria JNMJ01000048.1 III 2 499 GCA_000713905.1 1444087 562 Escherichia coli 3-475-03_S1_C2 3-475-03_S1_C2 Proteobacteria JOQC01000025.1 III 2 500 GCA_000714055.1 1444171 562 Escherichia coli 4-203-08_S3_C2 4-203-08_S3_C2 Proteobacteria JOQK01000042.1 III 2 501 GCA_000713985.1 1444196 562 Escherichia coli 4-203-08_S3_C3 4-203-08_S3_C3 Proteobacteria JOQH01000040.1 III 2 502 GCA_000304875.2 1005452 562 Escherichia coli 5.2239 5.2239 Proteobacteria JH970990.1 III 2 503 GCA_000304055.2 1005561 562 Escherichia coli 5412 5412 Proteobacteria JH954949.1 III 2 504 GCA_000264135.1 752787 562 Escherichia coli 576-1 576-1 Proteobacteria AJWS01000293.1 III 2 505 GCA_000303995.2 1005558 562 Escherichia coli 5905 5905 Proteobacteria JH958373.1 III 2 506 GCA_000714385.1 1444226 562 Escherichia coli 6-175-07_S4_C1 6-175-07_S4_C1 Proteobacteria JORB01000108.1 III 2 507 GCA_000714415.1 1444255 562 Escherichia coli 6-175-07_S4_C2 6-175-07_S4_C2 Proteobacteria JORC01000054.1 III 2 508 GCA_000713175.1 1444281 562 Escherichia coli 6-175-07_S4_C3 6-175-07_S4_C3 Proteobacteria JORK01000060.1 III 2 509 GCA_000713335.1 1444062 562 Escherichia coli 6-319-05_S1_C1 6-319-05_S1_C1 Proteobacteria JORT01000068.1 III 2 510 GCA_000713025.1 1444090 562 Escherichia coli 6-319-05_S1_C2 6-319-05_S1_C2 Proteobacteria JORD01000183.1 III 2 511 GCA_000713015.1 1444115 562 Escherichia coli 6-319-05_S1_C3 6-319-05_S1_C3 Proteobacteria JORE01000064.1 III 2 512 GCA_000713255.1 1444227 562 Escherichia coli 6-537-08_S4_C1 6-537-08_S4_C1 Proteobacteria JORS01000112.1 III 2 513 GCA_000713605.1 1444257 562 Escherichia coli 6-537-08_S4_C2 6-537-08_S4_C2 Proteobacteria JOSG01000027.1 III 2 514 GCA_000335115.1 1051348 562 Escherichia coli 7.1982 7.1982 Proteobacteria AOEP01000011.1 III 2 515 GCA_000304835.2 1005463 562 Escherichia coli 8.0416 8.0416 Proteobacteria AMTN01000133.1 III 2 516 GCA_000305375.2 1005461 562 Escherichia coli 8.0586 8.0586 Proteobacteria JH969648.1 III 2 517 GCA_000305395.2 1005460 562 Escherichia coli 8.2524 8.2524 Proteobacteria JH969044.1 III 2 518 GCA_000305455.2 1005397 562 Escherichia coli 88.0221 88.0221 Proteobacteria JH968005.1 III 2 519 GCA_000316345.2 1005398 562 Escherichia coli 88.1042 88.1042 Proteobacteria KB006081.1 III 2 520 GCA_000316365.2 1005399 562 Escherichia coli 89.0511 89.0511 Proteobacteria KB007266.1 III 2 521 GCA_000316385.2 1005400 562 Escherichia coli 90.0091 90.0091 Proteobacteria KB007294.1 III 2 522 GCA_000316425.2 1005402 562 Escherichia coli 90.2281 90.2281 Proteobacteria KB005715.1 III 2 523 GCA_000488355.1 1268982 562 Escherichia coli 907672 907672 Proteobacteria KI531258.1 III 2 524 GCA_000485695.1 1268986 562 Escherichia coli 907713 907713 Proteobacteria KI522246.1 III 2 525 GCA_000488435.1 1268987 562 Escherichia coli 907715 907715 Proteobacteria KI531882.1 III 2 526 GCA_000488515.1 1268992 562 Escherichia coli 908521 908521 Proteobacteria KI532686.1 III 2 527 GCA_000488535.1 1268993 562 Escherichia coli 908522 908522 Proteobacteria KI532821.1 III 2 528 GCA_000488575.1 1268995 562 Escherichia coli 908525 908525 Proteobacteria KI533062.1 III 2 529 GCA_000488655.1 1268999 562 Escherichia coli 908585 908585 Proteobacteria KI533791.1 III 2 530 GCA_000488675.1 1269000 562 Escherichia coli 908616 908616 Proteobacteria KI533940.1 III 2 531 GCA_000316445.2 1005403 562 Escherichia coli 93.0055 93.0055 Proteobacteria KB004131.1 III 2 532 GCA_000316465.1 1005404 562 Escherichia coli 93.0056 93.0056 Proteobacteria KB004997.1 III 2 533 GCA_000267945.2 1005481 562 Escherichia coli 93-001 93-001 Proteobacteria JH710997.1 III 2 534 GCA_000316485.1 1005405 562 Escherichia coli 94.0618 94.0618 Proteobacteria KB005707.1 III 2 535 GCA_000335375.2 1051346 562 Escherichia coli 95.0083 95.0083 Proteobacteria AOEU01000192.1 III 2 536 GCA_000316865.2 1005407 562 Escherichia coli 95.1288 95.1288 Proteobacteria KB001712.1 III 2 537 GCA_000316765.2 1005415 562 Escherichia coli 96.0107 96.0107 Proteobacteria KB003449.1 III 2 538 GCA_000318425.2 1005414 562 Escherichia coli 96.0109 96.0109 Proteobacteria KB009454.1 III 2 539 GCA_000316825.2 1005411 562 Escherichia coli 96.0427 96.0427 Proteobacteria KB002687.1 III 2 540 GCA_000316905.2 1005410 562 Escherichia coli 96.0428 96.0428 Proteobacteria KB000504.1 III 2 541 GCA_000316805.2 1005413 562 Escherichia coli 96.0932 96.0932 Proteobacteria KB003092.1 III 2 542 GCA_000316745.2 1005416 562 Escherichia coli 97.0003 97.0003 Proteobacteria JH999738.1 III 2 543 GCA_000316505.2 1005420 562 Escherichia coli 97.0007 97.0007 Proteobacteria ANMC01000275.1 III 2 544 GCA_000318445.2 1005419 562 Escherichia coli 97.0010 97.0010 Proteobacteria KB008878.1 III 2 545 GCA_000316725.2 1005418 562 Escherichia coli 97.1742 97.1742 Proteobacteria KB004341.1 III 2 546 GCA_000335215.2 1005423 562 Escherichia coli 99.0670 99.0670 Proteobacteria AOEV01000013.1 III 2 547 GCA_000316545.2 1005422 562 Escherichia coli 99.0678 99.0678 Proteobacteria ANME01000013.1 III 2 548 GCA_000316565.2 1005424 562 Escherichia coli 99.0713 99.0713 Proteobacteria ANMF01000001.1 III 2 549 GCA_000335255.2 1005432 562 Escherichia coli 99.0839 99.0839 Proteobacteria AOEB01000180.1 III 2 550 GCA_000335275.2 1005431 562 Escherichia coli 99.0848 99.0848 Proteobacteria AOEC01000227.1 III 2 551 GCA_000335295.2 1005440 562 Escherichia coli 99.1753 99.1753 Proteobacteria AOED01000248.1 III 2 552 GCA_000335155.2 1005435 562 Escherichia coli 99.1762 99.1762 Proteobacteria AOER01000006.1 III 2 553 GCA_000335315.2 1005438 562 Escherichia coli 99.1775 99.1775 Proteobacteria AOEE01000251.1 III 2 554 GCA_000335135.1 1005439 562 Escherichia coli 99.1781 99.1781 Proteobacteria AOEQ01000012.1 III 2 555 GCA_000335015.2 1005437 562 Escherichia coli 99.1793 99.1793 Proteobacteria AOEF01000014.1 III 2 556 GCA_000473725.2 1389955 562 Escherichia coli ATCC 35150 ATCC 35150 Proteobacteria AWXM02000035.1 III 2 557 GCA_000335055.2 1051353 562 Escherichia coli ATCC 700728 ATCC 700728 Proteobacteria AOEH01000126.1 III 2 558 GCA_000019385.1 481805 562 Escherichia coli ATCC 8739 ATCC 8739 Proteobacteria CP000946.1 III 2 559 GCA_000496345.2 1404261 562 Escherichia coli ATCC BAA-2192 ATCC BAA-2192 Proteobacteria AYGW02000190.1 III 2 560 GCA_000461955.2 1151213 562 Escherichia coli B102 B102 Proteobacteria AVQS01000008.1 III 2 561 GCA_000462485.2 1151234 562 Escherichia coli B103 B103 Proteobacteria AVRS01000001.1 III 2 562 GCA_000462505.2 1151243 562 Escherichia coli B104 B104 Proteobacteria AVRT01000005.1 III 2 563 GCA_000462525.2 1151247 562 Escherichia coli B105 B105 Proteobacteria AVRU01000005.1 III 2 564 GCA_000462545.2 1151248 562 Escherichia coli B106 B106 Proteobacteria AVRV01000001.1 III 2 565 GCA_000461995.2 1151214 562 Escherichia coli B107 B107 Proteobacteria AVQT01000005.1 III 2 566 GCA_000462565.2 550673 562 Escherichia coli B108 B108 Proteobacteria AVRW01000007.1 III 2 567 GCA_000462585.2 1151244 562 Escherichia coli B109 B109 Proteobacteria AVRX01000001.1 III 2 568 GCA_000462605.2 1151249 562 Escherichia coli B112 B112 Proteobacteria AVRY01000010.1 III 2 569 GCA_000462625.2 1151250 562 Escherichia coli B113 B113 Proteobacteria AVRZ01000133.1 III 2 570 GCA_000462645.2 1151251 562 Escherichia coli B114 B114 Proteobacteria AVSA01000001.1 III 2 571 GCA_000462185.2 1151237 562 Escherichia coli B15 B15 Proteobacteria AVSB01000112.1 III 2 572 GCA_000462665.2 1151238 562 Escherichia coli B17 B17 Proteobacteria AVSC01000121.1 III 2 573 GCA_000462025.2 1151225 562 Escherichia coli B26-1 B26-1 Proteobacteria AVQU01000001.1 III 2 574 GCA_000461915.2 1151226 562 Escherichia coli B26-2 B26-2 Proteobacteria AVQV01000001.1 III 2 575 GCA_000462045.2 1151217 562 Escherichia coli B28-1 B28-1 Proteobacteria AVQW01000010.1 III 2 576 GCA_000477495.2 1151218 562 Escherichia coli B28-2 B28-2 Proteobacteria AVQX01000012.1 III 2 577 GCA_000461975.2 1151219 562 Escherichia coli B29-1 B29-1 Proteobacteria AVQY01000001.1 III 2 578 GCA_000462105.2 1151220 562 Escherichia coli B29-2 B29-2 Proteobacteria AVQZ01000006.1 III 2 579 GCA_000462125.2 1151221 562 Escherichia coli B36-1 B36-1 Proteobacteria AVRA01000107.1 III 2 580 GCA_000462065.2 1151222 562 Escherichia coli B36-2 B36-2 Proteobacteria AVRB01000001.1 III 2 581 GCA_000462685.2 1151227 562 Escherichia coli B40-1 B40-1 Proteobacteria AVSD01000010.1 III 2 582 GCA_000462705.2 1151228 562 Escherichia coli B40-2 B40-2 Proteobacteria AVSE01000003.1 III 2 583 GCA_000462725.2 1151246 562 Escherichia coli B49-2 B49-2 Proteobacteria AVSF01000006.1 III 2 584 GCA_000462745.2 1151224 562 Escherichia coli B5-2 B5-2 Proteobacteria AVSG01000001.1 III 2 585 GCA_000462085.2 1151215 562 Escherichia coli B7-1 B7-1 Proteobacteria AVRC01000049.1 III 2 586 GCA_000462405.2 1151216 562 Escherichia coli B7-2 B7-2 Proteobacteria AVRD01000050.1 III 2 587 GCA_000462765.2 1151239 562 Escherichia coli B83 B83 Proteobacteria AVSH01000001.1 III 2 588 GCA_000462785.2 1151240 562 Escherichia coli B84 B84 Proteobacteria AVSI01000012.1 III 2 589 GCA_000462805.2 1151241 562 Escherichia coli B85 B85 Proteobacteria AVSJ01000007.1 III 2 590 GCA_000462825.2 1151242 562 Escherichia coli B86 B86 Proteobacteria AVSK01000136.1 III 2 591 GCA_000462845.2 1151235 562 Escherichia coli B89 B89 Proteobacteria AVSL01000001.1 III 2 592 GCA_000462865.2 1151236 562 Escherichia coli B90 B90 Proteobacteria AVSM01000129.1 III 2 593 GCA_000462425.2 1151231 562 Escherichia coli B93 B93 Proteobacteria AVRE01000046.1 III 2 594 GCA_000462445.2 1151232 562 Escherichia coli B94 B94 Proteobacteria AVRF01000052.1 III 2 595 GCA_000462465.2 1151233 562 Escherichia coli B95 B95 Proteobacteria AVRG01000053.1 III 2 596 GCA_000522245.1 1328440 562 Escherichia coli BIDMC 15 BIDMC 15 Proteobacteria KI929736.1 III 2 597 GCA_000522225.1 1328441 562 Escherichia coli BIDMC 17A BIDMC 17A Proteobacteria KI929720.1 III 2 598 GCA_000522205.1 1328442 562 Escherichia coli BIDMC 17B BIDMC 17B Proteobacteria KI929706.1 III 2 599 GCA_000522185.1 1328443 562 Escherichia coli BIDMC 19A BIDMC 19A Proteobacteria KI929698.1 III 2 600 GCA_000522165.1 1328444 562 Escherichia coli BIDMC 19B BIDMC 19B Proteobacteria KI929691.1 III 2 601 GCA_000474825.1 1328445 562 Escherichia coli BIDMC 19C BIDMC 19C Proteobacteria AXLI01000001.1 III 2 602 GCA_000522305.1 1328436 562 Escherichia coli BIDMC 2B BIDMC 2B Proteobacteria KI929775.1 III 2 603 GCA_000522285.1 1328437 562 Escherichia coli BIDMC 3 BIDMC 3 Proteobacteria KI929768.1 III 2 604 GCA_000492235.1 1328450 562 Escherichia coli BIDMC 39 BIDMC 39 Proteobacteria KI535383.1 III 2 605 GCA_000522105.1 1400156 562 Escherichia coli BIDMC 43a BIDMC 43a Proteobacteria KI929669.1 III 2 606 GCA_000522085.1 1400157 562 Escherichia coli BIDMC 43b BIDMC 43b Proteobacteria KI929660.1 III 2 607 GCA_000522405.1 1328438 562 Escherichia coli BIDMC 6 BIDMC 6 Proteobacteria KI929808.1 III 2 608 GCA_000633675.1 1445862 562 Escherichia coli BIDMC 82 BIDMC 82 Proteobacteria KK214161.1 III 2 609 GCA_000522265.1 1328439 562 Escherichia coli BIDMC 9 BIDMC 9 Proteobacteria KI929754.1 III 2 610 GCA_000304015.2 1005559 562 Escherichia coli CB7326 CB7326 Proteobacteria JH956766.1 III 2 611 GCA_000731355.1 1400022 562 Escherichia coli D6-113.11 D6-113.11 Proteobacteria HG977177.1 III 2 612 GCA_000249495.2 868155 562 Escherichia coli DEC5A DEC5A Proteobacteria AIFQ01000037.1 III 2 613 GCA_000267045.1 1005536 562 Escherichia coli EC1734 EC1734 Proteobacteria AKMO01000001.1 III 2 614 GCA_000303615.2 1005537 562 Escherichia coli EC1735 EC1735 Proteobacteria JH958312.1 III 2 615 GCA_000303595.2 1005538 562 Escherichia coli EC1736 EC1736 Proteobacteria JH965238.1 III 2 616 GCA_000303575.2 1005539 562 Escherichia coli EC1737 EC1737 Proteobacteria JH963529.1 III 2 617 GCA_000267025.1 1005535 562 Escherichia coli EC1738 EC1738 Proteobacteria AKMN01000003.1 III 2 618 GCA_000267225.2 1005540 562 Escherichia coli EC1845 EC1845 Proteobacteria JH693448.1 III 2 619 GCA_000303555.2 1005541 562 Escherichia coli EC1846 EC1846 Proteobacteria JH956315.1 III 2 620 GCA_000303535.2 1005542 562 Escherichia coli EC1847 EC1847 Proteobacteria JH963080.1 III 2 621 GCA_000303515.2 1005543 562 Escherichia coli EC1848 EC1848 Proteobacteria JH955442.1 III 2 622 GCA_000303495.2 1005544 562 Escherichia coli EC1849 EC1849 Proteobacteria JH953696.1 III 2 623 GCA_000303475.2 1005545 562 Escherichia coli EC1850 EC1850 Proteobacteria JH952886.1 III 2 624 GCA_000303455.2 1005546 562 Escherichia coli EC1856 EC1856 Proteobacteria JH952880.1 III 2 625 GCA_000303435.2 1005547 562 Escherichia coli EC1862 EC1862 Proteobacteria JH952466.1 III 2 626 GCA_000267205.2 1005548 562 Escherichia coli EC1863 EC1863 Proteobacteria JH692972.1 III 2 627 GCA_000303415.2 1005549 562 Escherichia coli EC1864 EC1864 Proteobacteria JH945870.1 III 2 628 GCA_000303375.2 1005551 562 Escherichia coli EC1866 EC1866 Proteobacteria JH944315.1 III 2 629 GCA_000303355.2 1005552 562 Escherichia coli EC1868 EC1868 Proteobacteria JH944350.1 III 2 630 GCA_000303335.2 1005553 562 Escherichia coli EC1869 EC1869 Proteobacteria JH946714.1 III 2 631 GCA_000303315.2 1005554 562 Escherichia coli EC1870 EC1870 Proteobacteria JH945214.1 III 2 632 GCA_000267345.2 1005529 562 Escherichia coli EC4013 EC4013 Proteobacteria JH698305.1 III 2 633 GCA_000267445.2 1005524 562 Escherichia coli EC4196 EC4196 Proteobacteria JH699193.1 III 2 634 GCA_000267465.2 1005523 562 Escherichia coli EC4203 EC4203 Proteobacteria JH699677.1 III 2 635 GCA_000267325.1 1005530 562 Escherichia coli EC4402 EC4402 Proteobacteria JH697728.1 III 2 636 GCA_000267385.2 1005527 562 Escherichia coli EC4421 EC4421 Proteobacteria JH696600.1 III 2 637 GCA_000267365.2 1005528 562 Escherichia coli EC4422 EC4422 Proteobacteria JH695870.1 III 2 638 GCA_000267285.2 1005532 562 Escherichia coli EC4436 EC4436 Proteobacteria JH694746.1 III 2 639 GCA_000267265.2 1005533 562 Escherichia coli EC4437 EC4437 Proteobacteria JH694340.1 III 2 640 GCA_000267305.2 1005531 562 Escherichia coli EC4439 EC4439 Proteobacteria JH697080.1 III 2 641 GCA_000267245.2 1005534 562 Escherichia coli EC4448 EC4448 Proteobacteria JH693935.1 III 2 642 GCA_000304035.2 1005560 562 Escherichia coli EC96038 EC96038 Proteobacteria JH955436.1 III 2 643 GCA_000498235.1 758832 562 Escherichia coli ECC-Z ECC-Z Proteobacteria AHHN01000002.1 III 2 644 GCA_000355195.2 1115998 562 Escherichia coli Envira 10/1 Envira 10/1 Proteobacteria AQFD01000020.1 III 2 645 GCA_000355215.2 1115997 562 Escherichia coli Envira 8/11 Envira 8/11 Proteobacteria AQFC01000021.1 III 2 646 GCA_000303755.2 1005470 562 Escherichia coli FDA504 FDA504 Proteobacteria JH961871.1 III 2 647 GCA_000267005.2 1005471 562 Escherichia coli FDA505 FDA505 Proteobacteria JH692596.1 III 2 648 GCA_000303715.2 1005474 562 Escherichia coli FDA506 FDA506 Proteobacteria JH964536.1 III 2 649 GCA_000303735.2 1005472 562 Escherichia coli FDA507 FDA507 Proteobacteria JH963945.1 III 2 650 GCA_000267485.2 1005473 562 Escherichia coli FDA517 FDA517 Proteobacteria JH701995.1 III 2 651 GCA_000267525.2 1005476 562 Escherichia coli FRIK1985 FRIK1985 Proteobacteria JH701533.1 III 2 652 GCA_000303795.2 1005480 562 Escherichia coli FRIK1997 FRIK1997 Proteobacteria JH961362.1 III 2 653 GCA_000303275.2 1005482 562 Escherichia coli FRIK523 FRIK523 Proteobacteria JH943936.1 III 2 654 GCA_000163215.1 656379 562 Escherichia coli FVEC1302 FVEC1302 Proteobacteria GG774899.1 III 2 655 GCA_000163235.1 656380 562 Escherichia coli FVEC1412 FVEC1412 Proteobacteria GG749206.1 III 2 656 GCA_000456165.1 1280964 562 Escherichia coli HVH 10 (4-6832164) HVH 10 (4-6832164) Proteobacteria KE698889.1 III 2 657 GCA_000457475.1 1281042 562 Escherichia coli HVH 106 (4-6881831) HVH 106 (4-6881831) Proteobacteria KE699746.1 III 2 658 GCA_000457535.1 1281046 562 Escherichia coli HVH 110 (4-6978754) HVH 110 (4-6978754) Proteobacteria KE699792.1 III 2 659 GCA_000457595.1 1281049 562 Escherichia coli HVH 113 (4-7535473) HVH 113 (4-7535473) Proteobacteria KE699840.1 III 2 660 GCA_000457735.1 1281056 562 Escherichia coli HVH 119 (4-6879578) HVH 119 (4-6879578) Proteobacteria KE699940.1 III 2 661 GCA_000457795.1 1281059 562 Escherichia coli HVH 122 (4-6851606) HVH 122 (4-6851606) Proteobacteria KE699976.1 III 2 662 GCA_000457895.1 1281064 562 Escherichia coli HVH 130 (4-7036876) HVH 130 (4-7036876) Proteobacteria KE700051.1 III 2 663 GCA_000457955.1 1281067 562 Escherichia coli HVH 134 (4-6073441) HVH 134 (4-6073441) Proteobacteria KE700096.1 III 2 664 GCA_000457975.1 1281068 562 Escherichia coli HVH 135 (4-4449320) HVH 135 (4-4449320) Proteobacteria KE700100.1 III 2 665 GCA_000494995.1 1281069 562 Escherichia coli HVH 136 (4-5970458) HVH 136 (4-5970458) Proteobacteria KI538714.1 III 2 666 GCA_000458055.1 1281073 562 Escherichia coli HVH 140 (4-5894387) HVH 140 (4-5894387) Proteobacteria KE700176.1 III 2 667 GCA_000458155.1 1281078 562 Escherichia coli HVH 145 (4-5672112) HVH 145 (4-5672112) Proteobacteria KE700231.1 III 2 668 GCA_000458235.1 1281083 562 Escherichia coli HVH 150 (4-3258106) HVH 150 (4-3258106) Proteobacteria KE700264.1 III 2 669 GCA_000458255.1 1281084 562 Escherichia coli HVH 151 (4-5755573) HVH 151 (4-5755573) Proteobacteria KE700275.1 III 2 670 GCA_000458315.1 1281088 562 Escherichia coli HVH 155 (4-4509048) HVH 155 (4-4509048) Proteobacteria KE700348.1 III 2 671 GCA_000458475.1 1281096 562 Escherichia coli HVH 163 (4-4697553) HVH 163 (4-4697553) Proteobacteria KE700462.1 III 2 672 GCA_000458515.1 1281098 562 Escherichia coli HVH 167 (4-6073565) HVH 167 (4-6073565) Proteobacteria KE700479.1 III 2 673 GCA_000458625.1 1281103 562 Escherichia coli HVH 173 (3-9175482) HVH 173 (3-9175482) Proteobacteria KE700542.1 III 2 674 GCA_000458705.1 1281109 562 Escherichia coli HVH 182 (4-0985554) HVH 182 (4-0985554) Proteobacteria KE700608.1 III 2 675 GCA_000458725.1 1281110 562 Escherichia coli HVH 183 (4-3205932) HVH 183 (4-3205932) Proteobacteria KE700619.1 III 2 676 GCA_000458915.1 1281120 562 Escherichia coli HVH 193 (4-3331423) HVH 193 (4-3331423) Proteobacteria KE700785.1 III 2 677 GCA_000458995.1 1281124 562 Escherichia coli HVH 197 (4-4466217) HVH 197 (4-4466217) Proteobacteria KE700814.1 III 2 678 GCA_000459175.1 1281133 562 Escherichia coli HVH 206 (4-3128229) HVH 206 (4-3128229) Proteobacteria KE700892.1 III 2 679 GCA_000459215.1 1281135 562 Escherichia coli HVH 208 (4-3112292) HVH 208 (4-3112292) Proteobacteria KE700918.1 III 2 680 GCA_000459335.1 1281142 562 Escherichia coli HVH 215 (4-3008371) HVH 215 (4-3008371) Proteobacteria KE700987.1 III 2 681 GCA_000456325.1 1280973 562 Escherichia coli HVH 22 (4-2258986) HVH 22 (4-2258986) Proteobacteria KE699031.1 III 2 682 GCA_000459475.1 1281149 562 Escherichia coli HVH 223 (4-2976528) HVH 223 (4-2976528) Proteobacteria KE701095.1 III 2 683 GCA_000456445.1 1280980 562 Escherichia coli HVH 29 (4-3418073) HVH 29 (4-3418073) Proteobacteria KE699106.1 III 2 684 GCA_000456685.1 1280993 562 Escherichia coli HVH 43 (4-2173468) HVH 43 (4-2173468) Proteobacteria KE699249.1 III 2 685 GCA_000456705.1 1280994 562 Escherichia coli HVH 44 (4-2298570) HVH 44 (4-2298570) Proteobacteria KE699258.1 III 2 686 GCA_000456725.1 1280995 562 Escherichia coli HVH 45 (4-3129918) HVH 45 (4-3129918) Proteobacteria KE699267.1 III 2 687 GCA_000456925.1 1281007 562 Escherichia coli HVH 63 (4-2542528) HVH 63 (4-2542528) Proteobacteria KE699373.1 III 2 688 GCA_000456985.1 1281010 562 Escherichia coli HVH 69 (4-2837072) HVH 69 (4-2837072) Proteobacteria KE699403.1 III 2 689 GCA_000457205.1 1281022 562 Escherichia coli HVH 85 (4-0792144) HVH 85 (4-0792144) Proteobacteria KE699590.1 III 2 690 GCA_000459655.1 1281158 562 Escherichia coli KOEGE 33 (68a) KOEGE 33 (68a) Proteobacteria KE701249.1 III 2 691 GCA_000459795.1 1281165 562 Escherichia coli KOEGE 62 (175a) KOEGE 62 (175a) Proteobacteria KE701351.1 III 2 692 GCA_000459815.1 1281166 562 Escherichia coli KOEGE 68 (182a) KOEGE 68 (182a) Proteobacteria KE701357.1 III 2 693 GCA_000459875.1 1281169 562 Escherichia coli KOEGE 73 (195a) KOEGE 73 (195a) Proteobacteria KE701395.1 III 2 694 GCA_000407665.1 1169315 562 Escherichia coli KTE1 KTE1 Proteobacteria KE136571.1 III 2 695 GCA_000408585.1 1182701 562 Escherichia coli KTE102 KTE102 Proteobacteria KE137162.1 III 2 696 GCA_000351885.1 1182708 562 Escherichia coli KTE116 KTE116 Proteobacteria KB732889.1 III 2 697 GCA_000326945.1 1169380 562 Escherichia coli KTE122 KTE122 Proteobacteria KB731963.1 III 2 698 GCA_000326965.1 1169382 562 Escherichia coli KTE125 KTE125 Proteobacteria KB732191.1 III 2 699 GCA_000408705.1 1182714 562 Escherichia coli KTE127 KTE127 Proteobacteria KE137233.1 III 2 700 GCA_000326245.1 1169383 562 Escherichia coli KTE128 KTE128 Proteobacteria ANXW01000117.1 III 2 701 GCA_000408725.1 1182715 562 Escherichia coli KTE130 KTE130 Proteobacteria KE137242.1 III 2 702 GCA_000408745.1 1182716 562 Escherichia coli KTE132 KTE132 Proteobacteria KE137261.1 III 2 703 GCA_000408765.1 1182717 562 Escherichia coli KTE134 KTE134 Proteobacteria KE137276.1 III 2 704 GCA_000352725.1 1182728 562 Escherichia coli KTE154 KTE154 Proteobacteria KB733130.1 III 2 705 GCA_000352745.1 1182731 562 Escherichia coli KTE158 KTE158 Proteobacteria KB733136.1 III 2 706 GCA_000351985.1 1182733 562 Escherichia coli KTE161 KTE161 Proteobacteria KB732934.1 III 2 707 GCA_000326765.1 1169397 562 Escherichia coli KTE166 KTE166 Proteobacteria ANYK01000003.1 III 2 708 GCA_000408825.1 1182737 562 Escherichia coli KTE170 KTE170 Proteobacteria KE137303.1 III 2 709 GCA_000350925.1 1181727 562 Escherichia coli KTE181 KTE181 Proteobacteria KB732408.1 III 2 710 GCA_000350625.1 1169324 562 Escherichia coli KTE2 KTE2 Proteobacteria KB732209.1 III 2 711 GCA_000408185.1 1181746 562 Escherichia coli KTE200 KTE200 Proteobacteria KE136942.1 III 2 712 GCA_000352965.1 1181748 562 Escherichia coli KTE202 KTE202 Proteobacteria KB733186.1 III 2 713 GCA_000351065.1 1181750 562 Escherichia coli KTE204 KTE204 Proteobacteria KB732469.1 III 2 714 GCA_000351125.1 1181754 562 Escherichia coli KTE208 KTE208 Proteobacteria KB732511.1 III 2 715 GCA_000408245.1 1181768 562 Escherichia coli KTE222 KTE222 Proteobacteria KE136972.1 III 2 716 GCA_000408265.1 1181771 562 Escherichia coli KTE225 KTE225 Proteobacteria KE136980.1 III 2 717 GCA_000351365.1 1181779 562 Escherichia coli KTE235 KTE235 Proteobacteria KB732610.1 III 2 718 GCA_000350825.1 1169345 562 Escherichia coli KTE26 KTE26 Proteobacteria KB732334.1 III 2 719 GCA_000350885.1 1169361 562 Escherichia coli KTE44 KTE44 Proteobacteria KB732364.1 III 2 720 GCA_000352325.1 1182657 562 Escherichia coli KTE50 KTE50 Proteobacteria KB733431.1 III 2 721 GCA_000351465.1 1182658 562 Escherichia coli KTE51 KTE51 Proteobacteria KB732658.1 III 2 722 GCA_000351525.1 1182663 562 Escherichia coli KTE56 KTE56 Proteobacteria KB732702.1 III 2 723 GCA_000408385.1 1182675 562 Escherichia coli KTE68 KTE68 Proteobacteria KE137040.1 III 2 724 GCA_000351765.1 1182688 562 Escherichia coli KTE81 KTE81 Proteobacteria KB732854.1 III 2 725 GCA_000326505.1 1169363 562 Escherichia coli KTE82 KTE82 Proteobacteria ANYT01000130.1 III 2 726 GCA_000351785.1 1182689 562 Escherichia coli KTE83 KTE83 Proteobacteria KB733405.1 III 2 727 GCA_000176575.2 656419 562 Escherichia coli M718 M718 Proteobacteria GL884102.1 III 2 728 GCA_000261145.1 656421 562 Escherichia coli M919 M919 Proteobacteria JH659569.1 III 2 729 GCA_000692775.1 1438688 562 Escherichia coli MGH 58 MGH 58 Proteobacteria KK736506.1 III 2 730 GCA_000164275.1 749540 562 Escherichia coli MS 146-1 MS 146-1 Proteobacteria GG772126.1 III 2 731 GCA_000164335.1 749547 562 Escherichia coli MS 187-1 MS 187-1 Proteobacteria GG772497.1 III 2 732 GCA_000164555.1 749548 562 Escherichia coli MS 196-1 MS 196-1 Proteobacteria GG773987.1 III 2 733 GCA_000164195.1 749549 562 Escherichia coli MS 198-1 MS 198-1 Proteobacteria GG771459.1 III 2 734 GCA_000303835.2 1005484 562 Escherichia coli NE037 NE037 Proteobacteria JH960043.1 III 2 735 GCA_000303295.2 1005486 562 Escherichia coli NE098 NE098 Proteobacteria JH946265.1 III 2 736 GCA_000350045.2 1090929 562 Escherichia coli O127:H27 str. C43/90 C43/90 Proteobacteria AHAW01000071.1 III 2 737 GCA_000695155.1 1078035 562 Escherichia coli O145:H28 str. 4865/96 4865/96 Proteobacteria JHEY01000012.1 III 2 738 GCA_000671295.1 1248823 562 Escherichia coli O145:H28 str. RM12581 RM12581 Proteobacteria CP007136.1 III 2 739 GCA_000520035.1 1248902 562 Escherichia coli O145:H28 str. RM13514 RM13514 Proteobacteria CP006027.1 III 2 740 GCA_000617345.1 1446585 562 Escherichia coli O145:NM str. 06-3484 06-3484 Proteobacteria JHNN01000002.1 III 2 741 GCA_000616665.2 1446586 562 Escherichia coli O145:NM str. 08-4270 08-4270 Proteobacteria JHKV01000030.1 III 2 742 GCA_000615085.1 1446587 562 Escherichia coli O145:NM str. 2010C-3507 2010C-3507 Proteobacteria JHFW01000006.1 III 2 743 GCA_000619185.1 1446588 562 Escherichia coli O145:NM str. 2010C-3508 2010C-3508 Proteobacteria JHFV01000110.1 III 2 744 GCA_000615175.1 1446590 562 Escherichia coli O145:NM str. 2010C-3510 2010C-3510 Proteobacteria JHFT01000001.1 III 2 745 GCA_000615225.2 1446591 562 Escherichia coli O145:NM str. 2010C-3511 2010C-3511 Proteobacteria JHFS01000035.1 III 2 746 GCA_000615265.1 1446592 562 Escherichia coli O145:NM str. 2010C-3516 2010C-3516 Proteobacteria JHFR01000094.1 III 2 747 GCA_000615305.1 1446593 562 Escherichia coli O145:NM str. 2010C-3517 2010C-3517 Proteobacteria JHFQ01000117.1 III 2 748 GCA_000615345.1 1446594 562 Escherichia coli O145:NM str. 2010C-3518 2010C-3518 Proteobacteria JHFP01000105.1 III 2 749 GCA_000615385.1 1446595 562 Escherichia coli O145:NM str. 2010C-3521 2010C-3521 Proteobacteria JHF001000022.1 III 2 750 GCA_000615415.2 1446596 562 Escherichia coli O145:NM str. 2010C-3526 2010C-3526 Proteobacteria JHFN01000018.1 III 2 751 GCA_000617765.2 1446597 562 Escherichia coli O145:NM str. 2010C-4557C2 2010C-4557C2 Proteobacteria JHNA01000067.1 III 2 752 GCA_000632555.1 1446606 562 Escherichia coli O157: str. 2010EL-2044 2010EL-2044 Proteobacteria JHME01000103.1 III 2 753 GCA_000632655.1 1446607 562 Escherichia coli O157: str. 2010EL-2045 2010EL-2045 Proteobacteria JHMD01000001.1 III 2 754 GCA_000187305.2 926027 562 Escherichia coli O157:H- str. 493-89 493-89 Proteobacteria AETY01000104.1 III 2 755 GCA_000187325.2 926028 562 Escherichia coli O157:H- str. H 2687 H 2687 Proteobacteria AETZ01000110.1 III 2 756 GCA_000978815.1 83334 562 Escherichia coli O157:H7 7.1_Anguil Proteobacteria LAZD01000130.1 III 2 757 GCA_000978845.1 83334 562 Escherichia coli O157:H7 Rafaela_II Proteobacteria LAYW01000314.1 III 2 758 GCA_001006425.1 83334 562 Escherichia coli O157:H7 HB74 Proteobacteria LCWU01000234.1 III 2 759 GCA_001307215.1 83334 562 Escherichia coli O157:H7 WS4202 Proteobacteria CP012802.1 III 2 760 GCA_001440045.1 83334 562 Escherichia coli O157:H7 G10 Proteobacteria LMXL01000097.1 III 2 761 GCA_000617445.2 1446609 562 Escherichia coli O157:H7 str. 06-3745 06-3745 Proteobacteria JHNI01000020.1 III 2 762 GCA_000617705.2 1446610 562 Escherichia coli O157:H7 str. 06-4039 06-4039 Proteobacteria JHNG01000005.1 III 2 763 GCA_000617665.2 1446611 562 Escherichia coli O157:H7 str. 07-3091 07-3091 Proteobacteria JHNF01000007.1 III 2 764 GCA_000617725.2 1446612 562 Escherichia coli O157:H7 str. 07-3391 07-3391 Proteobacteria JHNE01000001.1 III 2 765 GCA_000616585.2 1446613 562 Escherichia coli O157:H7 str. 08-3037 08-3037 Proteobacteria JHKZ01000011.1 III 2 766 GCA_000616605.2 1446614 562 Escherichia coli O157:H7 str. 08-3527 08-3527 Proteobacteria JHKY01000032.1 III 2 767 GCA_000616645.2 1446615 562 Escherichia coli O157:H7 str. 08-4169 08-4169 Proteobacteria JHKW01000004.1 III 2 768 GCA_000619665.1 1446616 562 Escherichia coli O157:H7 str. 08-4529 08-4529 Proteobacteria JHHI01000009.1 III 2 769 GCA_000619145.1 1446618 562 Escherichia coli O157:H7 str. 2009EL1449 2009EL1449 Proteobacteria JHGF01000005.1 III 2 770 GCA_000614965.1 1446619 562 Escherichia coli O157:H7 str. 2009EL1705 2009EL1705 Proteobacteria JHGE01000007.1 III 2 771 GCA_000619165.1 1446620 562 Escherichia coli O157:H7 str. 2009EL1913 2009EL1913 Proteobacteria JHGD01000001.1 III 2 772 GCA_000615015.1 1446621 562 Escherichia coli O157:H7 str. 2009EL2109 2009EL2109 Proteobacteria JHGC01000001.1 III 2 773 GCA_000616365.1 1446623 562 Escherichia coli O157:H7 str. 2011EL-1107 2011EL-1107 Proteobacteria JHLK01000001.1 III 2 774 GCA_000616405.2 1446624 562 Escherichia coli O157:H7 str. 2011EL-2090 2011EL-2090 Proteobacteria JHLI01000033.1 III 2 775 GCA_000616425.2 1446625 562 Escherichia coli O157:H7 str. 2011EL-2091 2011EL-2091 Proteobacteria JHLH01000026.1 III 2 776 GCA_000616445.2 1446626 562 Escherichia coli O157:H7 str. 2011EL-2092 2011EL-2092 Proteobacteria JHLG01000030.1 III 2 777 GCA_000616465.2 1446627 562 Escherichia coli O157:H7 str. 2011EL-2093 2011EL-2093 Proteobacteria JHLF01000012.1 III 2 778 GCA_000616485.2 1446628 562 Escherichia coli O157:H7 str. 2011EL-2094 2011EL-2094 Proteobacteria JHLE01000001.1 III 2 779 GCA_000616505.2 1446629 562 Escherichia coli O157:H7 str. 2011EL-2096 2011EL-2096 Proteobacteria JHLD01000033.1 III 2 780 GCA_000616525.2 1446630 562 Escherichia coli O157:H7 str. 2011EL-2097 2011EL-2097 Proteobacteria JHLC01000005.1 III 2 781 GCA_000616545.2 1446631 562 Escherichia coli O157:H7 str. 2011EL-2098 2011EL-2098 Proteobacteria JHLB01000003.1 III 2 782 GCA_000616705.2 1446632 562 Escherichia coli O157:H7 str. 2011EL-2099 2011EL-2099 Proteobacteria JHKT01000015.1 III 2 783 GCA_000615695.1 1446633 562 Escherichia coli O157:H7 str. 2011EL-2101 2011EL-2101 Proteobacteria JHKS01000001.1 III 2 784 GCA_000615745.2 1446634 562 Escherichia coli O157:H7 str. 2011EL-2103 2011EL-2103 Proteobacteria JHKR01000031.1 III 2 785 GCA_000615785.2 1446635 562 Escherichia coli O157:H7 str. 2011EL-2104 2011EL-2104 Proteobacteria JHKQ01000016.1 III 2 786 GCA_000615815.2 1446636 562 Escherichia coli O157:H7 str. 2011EL-2105 2011EL-2105 Proteobacteria JHKP01000014.1 III 2 787 GCA_000615865.2 1446637 562 Escherichia coli O157:H7 str. 2011EL-2106 2011EL-2106 Proteobacteria JHKO01000009.1 III 2 788 GCA_000615925.2 1446638 562 Escherichia coli O157:H7 str. 2011EL-2107 2011EL-2107 Proteobacteria JHKN01000006.1 III 2 789 GCA_000615965.2 1446639 562 Escherichia coli O157:H7 str. 2011EL-2108 2011EL-2108 Proteobacteria JHKM01000031.1 III 2 790 GCA_000616005.2 1446640 562 Escherichia coli O157:H7 str. 2011EL-2109 2011EL-2109 Proteobacteria JHKL01000015.1 III 2 791 GCA_000616035.2 1446641 562 Escherichia coli O157:H7 str. 2011EL-2111 2011EL-2111 Proteobacteria JHKK01000003.1 III 2 792 GCA_000616075.2 1446642 562 Escherichia coli O157:H7 str. 2011EL-2112 2011EL-2112 Proteobacteria JHKJ01000005.1 III 2 793 GCA_000614645.2 1446643 562 Escherichia coli O157:H7 str. 2011EL-2113 2011EL-2113 Proteobacteria JHKI01000015.1 III 2 794 GCA_000614255.1 1446644 562 Escherichia coli O157:H7 str. 2011EL-2114 2011EL-2114 Proteobacteria JHKH01000002.1 III 2 795 GCA_000614305.2 1446645 562 Escherichia coli O157:H7 str. 2011EL-2286 2011EL-2286 Proteobacteria JHKG01000013.1 III 2 796 GCA_000614405.2 1446646 562 Escherichia coli O157:H7 str. 2011EL-2287 2011EL-2287 Proteobacteria JHKF01000001.1 III 2 797 GCA_000614085.2 1446647 562 Escherichia coli O157:H7 str. 2011EL-2288 2011EL-2288 Proteobacteria JHKE01000007.1 III 2 798 GCA_000614685.2 1446648 562 Escherichia coli O157:H7 str. 2011EL-2289 2011EL-2289 Proteobacteria JHKD01000001.1 III 2 799 GCA_000618945.2 1446649 562 Escherichia coli O157:H7 str. 2011EL-2290 2011EL-2290 Proteobacteria JHKC01000008.1 III 2 800 GCA_000614345.2 1446650 562 Escherichia coli O157:H7 str. 2011EL-2312 2011EL-2312 Proteobacteria JHKB01000003.1 III 2 801 GCA_000618985.2 1446651 562 Escherichia coli O157:H7 str. 2011EL-2313 2011EL-2313 Proteobacteria JHKA01000028.1 III 2 802 GCA_000181775.1 444449 562 Escherichia coli O157:H7 str. EC4042 EC4042 Proteobacteria ABHM02000001.1 III 2 803 GCA_000181755.1 444448 562 Escherichia coli O157:H7 str. EC4045 EC4045 Proteobacteria ABHL02000001.1 III 2 804 GCA_000171955.1 444453 562 Escherichia coli O157:H7 str. EC4076 EC4076 Proteobacteria ABHQ01000017.1 III 2 805 GCA_000171935.1 444452 562 Escherichia coli O157:H7 str. EC4113 EC4113 Proteobacteria ABHP01000015.1 III 2 806 GCA_000021125.1 444450 562 Escherichia coli O157:H7 str. EC4115 EC4115 Proteobacteria CP001164.1 III 2 807 GCA_000171915.1 444451 562 Escherichia coli O157:H7 str. EC4196 EC4196 Proteobacteria ABHO01000006.1 III 2 808 GCA_000181735.1 444447 562 Escherichia coli O157:H7 str. EC4206 EC4206 Proteobacteria ABHK02000001.1 III 2 809 GCA_000171975.1 478004 562 Escherichia coli O157:H7 str. EC4401 EC4401 Proteobacteria ABHR01000005.1 III 2 810 GCA_000171995.1 478005 562 Escherichia coli O157:H7 str. EC4486 EC4486 Proteobacteria ABHS01000002.1 III 2 811 GCA_000172015.1 478006 562 Escherichia coli O157:H7 str. EC4501 EC4501 Proteobacteria ABHT01000004.1 III 2 812 GCA_000172055.1 478007 562 Escherichia coli O157:H7 str. EC508 EC508 Proteobacteria ABHW01000003.1 III 2 813 GCA_000006665.1 155864 562 Escherichia coli O157:H7 str. EDL933 EDL933 Proteobacteria AE005174.2 III 2 814 GCA_000732965.1 155864 562 Escherichia coli O157:H7 str. EDL933 EDL933 Proteobacteria CP008957.1 III 2 815 GCA_000618105.2 1446652 562 Escherichia coli O157:H7 str. F6142 F6142 Proteobacteria JHJT01000009.1 III 2 816 GCA_000618045.1 1446653 562 Escherichia coli O157:H7 str. F6749 F6749 Proteobacteria JHJQ01000001.1 III 2 817 GCA_000618305.2 1446654 562 Escherichia coli O157:H7 str. F6750 F6750 Proteobacteria JHJP01000010.1 III 2 818 GCA_000618265.2 1446655 562 Escherichia coli O157:H7 str. F6751 F6751 Proteobacteria JHJO01000004.1 III 2 819 GCA_000614805.2 1446656 562 Escherichia coli O157:H7 str. F7350 F7350 Proteobacteria JHJN01000036.1 III 2 820 GCA_000618225.2 1446657 562 Escherichia coli O157:H7 str. F7377 F7377 Proteobacteria JHJM01000002.1 III 2 821 GCA_000618065.2 1446658 562 Escherichia coli O157:H7 str. F7384 F7384 Proteobacteria JHJL01000002.1 III 2 822 GCA_000618145.2 1446659 562 Escherichia coli O157:H7 str. F7410 F7410 Proteobacteria JHJK01000004.1 III 2 823 GCA_000187285.4 926026 562 Escherichia coli O157:H7 str. G5101 G5101 Proteobacteria AETX01000114.1 III 2 824 GCA_000618185.1 1446660 562 Escherichia coli O157:H7 str. G5303 G5303 Proteobacteria JHJI01000027.1 III 2 825 GCA_000618245.1 1446661 562 Escherichia coli O157:H7 str. H2495 H2495 Proteobacteria JHJH01000020.1 III 2 826 GCA_000618285.2 1446662 562 Escherichia coli O157:H7 str. H2498 H2498 Proteobacteria JHJG01000003.1 III 2 827 GCA_000618025.1 1446663 562 Escherichia coli O157:H7 str. K1420 K1420 Proteobacteria JHJF01000008.1 III 2 828 GCA_000618425.1 1446664 562 Escherichia coli O157:H7 str. K1792 K1792 Proteobacteria JHJD01000136.1 III 2 829 GCA_000618365.1 1446665 562 Escherichia coli O157:H7 str. K1793 K1793 Proteobacteria JHJC01000041.1 III 2 830 GCA_000618325.1 1446667 562 Escherichia coli O157:H7 str. K1796 K1796 Proteobacteria JHJA01000003.1 III 2 831 GCA_000618345.1 1446668 562 Escherichia coli O157:H7 str. K1845 K1845 Proteobacteria JHIZ01000038.1 III 2 832 GCA_000618445.1 1446669 562 Escherichia coli O157:H7 str. K1921 K1921 Proteobacteria JHIY01000012.1 III 2 833 GCA_000618465.1 1446670 562 Escherichia coli O157:H7 str. K1927 K1927 Proteobacteria JHIX01000108.1 III 2 834 GCA_000618485.1 1446671 562 Escherichia coli O157:H7 str. K2188 K2188 Proteobacteria JHIW01000103.1 III 2 835 GCA_000618665.1 1446674 562 Escherichia coli O157:H7 str. K2324 K2324 Proteobacteria JHIT01000105.1 III 2 836 GCA_000618525.1 1446675 562 Escherichia coli O157:H7 str. K2581 K2581 Proteobacteria JHIS01000002.1 III 2 837 GCA_000618605.1 1446679 562 Escherichia coli O157:H7 str. K4396 K4396 Proteobacteria JHI001000002.1 III 2 838 GCA_000617965.1 1446680 562 Escherichia coli O157:H7 str. K4405 K4405 Proteobacteria JHIN01000100.1 III 2 839 GCA_000618625.1 1446681 562 Escherichia coli O157:H7 str. K4406 K4406 Proteobacteria JHIM01000001.1 III 2 840 GCA_000618685.1 1446682 562 Escherichia coli O157:H7 str. K4527 K4527 Proteobacteria JHIL01000001.1 III 2 841 GCA_000618745.1 1446683 562 Escherichia coli O157:H7 str. K5418 K5418 Proteobacteria JHII01000001.1 III 2 842 GCA_000618765.1 1446684 562 Escherichia coli O157:H7 str. K5448 K5448 Proteobacteria JHIH01000007.1 III 2 843 GCA_000618785.1 1446685 562 Escherichia coli O157:H7 str. K5449 K5449 Proteobacteria JHIG01000002.1 III 2 844 GCA_000618805.1 1446686 562 Escherichia coli O157:H7 str. K5453 K5453 Proteobacteria JHIF01000066.1 III 2 845 GCA_000618885.1 1446687 562 Escherichia coli O157:H7 str. K5460 K5460 Proteobacteria JHIE01000002.1 III 2 846 GCA_000618825.1 1446688 562 Escherichia coli O157:H7 str. K5467 K5467 Proteobacteria JHID01000001.1 III 2 847 GCA_000618845.1 1446689 562 Escherichia coli O157:H7 str. K5602 K5602 Proteobacteria JHIC01000015.1 III 2 848 GCA_000618865.1 1446690 562 Escherichia coli O157:H7 str. K5607 K5607 Proteobacteria JHIB01000088.1 III 2 849 GCA_000619445.1 1446691 562 Escherichia coli O157:H7 str. K5609 K5609 Proteobacteria JHIA01000021.1 III 2 850 GCA_000616745.1 1446692 562 Escherichia coli O157:H7 str. K5806 K5806 Proteobacteria JHHZ01000001.1 III 2 851 GCA_000619365.1 1446693 562 Escherichia coli O157:H7 str. K5852 K5852 Proteobacteria JHHY01000003.1 III 2 852 GCA_000619385.1 1446694 562 Escherichia coli O157:H7 str. K6590 K6590 Proteobacteria JHHX01000004.1 III 2 853 GCA_000619405.1 1446695 562 Escherichia coli O157:H7 str. K6676 K6676 Proteobacteria JHHW01000001.1 III 2 854 GCA_000619425.1 1446696 562 Escherichia coli O157:H7 str. K6687 K6687 Proteobacteria JHHV01000121.1 III 2 855 GCA_000618925.2 1446697 562 Escherichia coli O157:H7 str. k7140 K7140 Proteobacteria JHHK01000016.1 III 2 856 GCA_000008865.1 386585 562 Escherichia coli O157:H7 str. Sakai Sakai substr. RIMD Proteobacteria BA000007.2 III 2 0509952 857 GCA_000730345.1 1328859 562 Escherichia coli O157:H7 str. SS17 SS17 Proteobacteria CP008805.1 III 2 858 GCA_000803705.1 1330457 562 Escherichia coli O157:H7 str. SS52 SS52 Proteobacteria CP010304.1 III 2 859 GCA_000022225.1 544404 562 Escherichia coli O157:H7 str. TW14359 TW14359 Proteobacteria CP001368.1 III 2 860 GCA_000155125.1 502346 562 Escherichia coli O157:H7 str. TW14588 TW14588 Proteobacteria CM000662.1 III 2 861 GCA_000617385.1 1446745 562 Escherichia coli O55:H7 str. 06-3555 06-3555 Proteobacteria JHNL01000009.1 III 2 862 GCA_000187345.2 926029 562 Escherichia coli O55:H7 str. 3256-97 3256-97 TW 07815 Proteobacteria AEUA01000088.1 III 2 863 GCA_000025165.1 701177 562 Escherichia coli O55:H7 str. CB9615 CB9615 Proteobacteria CP001846.1 III 2 864 GCA_000357145.2 1116131 562 Escherichia coli P02997067.6 P02997067.6 Proteobacteria APYJ01000201.1 III 2 865 GCA_000356665.2 1116047 562 Escherichia coli P0299917.1 P0299917.1 Proteobacteria AQER01000001.1 III 2 866 GCA_000356605.2 1116089 562 Escherichia coli p0305293.1 p0305293.1 Proteobacteria AQEK01000045.1 III 2 867 GCA_000358555.1 1116098 562 Escherichia coli p0305293.10 p0305293.10 Proteobacteria AQBT01000187.1 III 2 868 GCA_000358575.2 1116099 562 Escherichia coli p0305293.11 p0305293.11 Proteobacteria AQBU01000292.1 III 2 869 GCA_000358595.2 1116100 562 Escherichia coli p0305293.12 p0305293.12 Proteobacteria AQBV01000163.1 III 2 870 GCA_000356865.2 1116101 562 Escherichia coli p0305293.13 p0305293.13 Proteobacteria APZI01000451.1 III 2 871 GCA_000357485.2 1125646 562 Escherichia coli p0305293.14 p0305293.14 Proteobacteria APZZ01000159.1 III 2 872 GCA_000358615.2 1116102 562 Escherichia coli p0305293.15 p0305293.15 Proteobacteria AQBW01000104.1 III 2 873 GCA_000358635.2 1116090 562 Escherichia coli p0305293.2 p0305293.2 Proteobacteria AQBX01000150.1 III 2 874 GCA_000358655.2 1116091 562 Escherichia coli p0305293.3 p0305293.3 Proteobacteria AQBY01000159.1 III 2 875 GCA_000358675.2 1116092 562 Escherichia coli p0305293.4 p0305293.4 Proteobacteria AQBZ01000242.1 III 2 876 GCA_000359055.2 1116093 562 Escherichia coli p0305293.5 p0305293.5 Proteobacteria AQCA01000251.1 III 2 877 GCA_000358695.2 1116096 562 Escherichia coli p0305293.8 p0305293.8 Proteobacteria AQCD01000162.1 III 2 878 GCA_000358715.2 1116097 562 Escherichia coli p0305293.9 p0305293.9 Proteobacteria AQCE01000149.1 III 2 879 GCA_000498255.1 1097579 562 Escherichia coli P4-96 P4-96 Proteobacteria AHH001000034.1 III 2 880 GCA_000498275.1 1117111 562 Escherichia coli P4-NR P4-NR Proteobacteria AHHP01000046.1 III 2 881 GCA_000267865.2 1005494 562 Escherichia coli PA10 PA10 Proteobacteria JH709066.1 III 2 882 GCA_000335415.2 1051349 562 Escherichia coli PA11 PA11 Proteobacteria AOEI01000002.1 III 2 883 GCA_000335435.2 1051350 562 Escherichia coli PA13 PA13 Proteobacteria AOEK01000001.1 III 2 884 GCA_000267845.2 1005495 562 Escherichia coli PA14 PA14 Proteobacteria JH708600.1 III 2 885 GCA_000267825.2 1005496 562 Escherichia coli PA15 PA15 Proteobacteria JH707559.1 III 2 886 GCA_000335335.2 1051351 562 Escherichia coli PA19 PA19 Proteobacteria AOEJ01000133.1 III 2 887 GCA_000335355.2 1005487 562 Escherichia coli PA2 PA2 Proteobacteria AOEL01000002.1 III 2 888 GCA_000267085.1 1005497 562 Escherichia coli PA22 PA22 Proteobacteria AKLI01000001.1 III 2 889 GCA_000303895.2 1005498 562 Escherichia coli PA23 PA23 Proteobacteria JH959990.1 III 2 890 GCA_000267805.2 1005499 562 Escherichia coli PA24 PA24 Proteobacteria JH707528.1 III 2 891 GCA_000267785.2 1005500 562 Escherichia coli PA25 PA25 Proteobacteria JH706538.1 III 2 892 GCA_000267765.2 1005501 562 Escherichia coli PA28 PA28 Proteobacteria JH705685.1 III 2 893 GCA_000267925.2 1005488 562 Escherichia coli PA3 PA3 Proteobacteria JH711390.1 III 2 894 GCA_000267745.2 1005502 562 Escherichia coli PA31 PA31 Proteobacteria JH707077.1 III 2 895 GCA_000267725.2 1005503 562 Escherichia coli PA32 PA32 Proteobacteria JH705678.1 III 2 896 GCA_000267705.2 1005504 562 Escherichia coli PA33 PA33 Proteobacteria JH705112.1 III 2 897 GCA_000303695.2 1005505 562 Escherichia coli PA34 PA34 Proteobacteria JH963946.1 III 2 898 GCA_000335175.2 1051352 562 Escherichia coli PA35 PA35 Proteobacteria AOES01000151.1 III 2 899 GCA_000303675.2 1005506 562 Escherichia coli PA38 PA38 Proteobacteria JH966118.1 III 2 900 GCA_000267685.2 1005507 562 Escherichia coli PA39 PA39 Proteobacteria JH704564.1 III 2 901 GCA_000303875.2 1005489 562 Escherichia coli PA4 PA4 Proteobacteria JH960549.1 III 2 902 GCA_000267645.2 1005510 562 Escherichia coli PA42 PA42 Proteobacteria JH702836.1 III 2 903 GCA_000303935.2 1005511 562 Escherichia coli PA45 PA45 Proteobacteria JH958691.1 III 2 904 GCA_000335075.2 1005512 562 Escherichia coli PA47 PA47 Proteobacteria AOEM01000157.1 III 2 905 GCA_000335095.2 1005513 562 Escherichia coli PA48 PA48 Proteobacteria AOEN01000122.1 III 2 906 GCA_000303915.2 1005514 562 Escherichia coli PA49 PA49 Proteobacteria JH959133.1 III 2 907 GCA_000267905.2 1005490 562 Escherichia coli PA5 PA5 Proteobacteria JH709975.1 III 2 908 GCA_000302735.1 1005491 562 Escherichia coli PA7 PA7 Proteobacteria AMTQ01000008.1 III 2 909 GCA_000335455.2 1005492 562 Escherichia coli PA8 PA8 Proteobacteria AOEO01000008.1 III 2 910 GCA_000267885.2 1005493 562 Escherichia coli PA9 PA9 Proteobacteria JH709102.1 III 2 911 GCA_000019645.1 439855 562 Escherichia coli SMS-3-5 SMS-3-5 Proteobacteria CP000970.1 III 2 912 GCA_000462145.2 1081891 562 Escherichia coli T1282_01 T1282_01 Proteobacteria AVRM01000132.1 III 2 913 GCA_000462265.2 1081896 562 Escherichia coli T1840_97 T1840_97 Proteobacteria AVRN01000121.1 III 2 914 GCA_000462385.2 1081892 562 Escherichia coli T234_00 T234_00 Proteobacteria AVRO01000124.1 III 2 915 GCA_000462165.2 1081893 562 Escherichia coli T924_01 T924_01 Proteobacteria AVRP01000002.1 III 2 916 GCA_000176615.2 656437 562 Escherichia coli TA143 TA143 Proteobacteria GL884236.1 III 2 917 GCA_000303955.2 1005555 562 Escherichia coli TT12B TT12B Proteobacteria JH957216.1 III 2 918 GCA_000267125.1 1005515 562 Escherichia coli TW06591 TW06591 Proteobacteria AKLT01000044.1 III 2 919 GCA_000267625.2 1005516 562 Escherichia coli TW07945 TW07945 Proteobacteria JH702467.1 III 2 920 GCA_000267605.2 1005519 562 Escherichia coli TW09098 TW09098 Proteobacteria JH702452.1 III 2 921 GCA_000267065.1 1005520 562 Escherichia coli TW09109 TW09109 Proteobacteria AKLY01000005.1 III 2 922 GCA_000267145.1 1005517 562 Escherichia coli TW10246 TW10246 Proteobacteria AKLV01000003.1 III 2 923 GCA_000267165.1 1005518 562 Escherichia coli TW11039 TW11039 Proteobacteria AKLW01000006.1 III 2 924 GCA_000267405.2 1005526 562 Escherichia coli TW14301 TW14301 Proteobacteria JH695863.1 III 2 925 GCA_000267425.2 1005525 562 Escherichia coli TW14313 TW14313 Proteobacteria JH695401.1 III 2 926 GCA_000462885.2 1207037 562 Escherichia coli Tx1686 Tx1686 Proteobacteria AVSN01000001.1 III 2 927 GCA_000462905.2 1207036 562 Escherichia coli Tx3800 Tx3800 Proteobacteria AVS001000014.1 III 2 928 GCA_000692835.1 1438693 562 Escherichia coli UCI 57 UCI 57 Proteobacteria KK736542.1 III 2 929 GCA_000692855.1 1438694 562 Escherichia coli UCI 58 UCI 58 Proteobacteria KK736552.1 III 2 930 GCA_000460315.1 1281191 562 Escherichia coli UMEA 3144-1 UMEA 3144-1 Proteobacteria KE701670.1 III 2 931 GCA_000460355.1 1281194 562 Escherichia coli UMEA 3151-1 UMEA 3151-1 Proteobacteria KE701689.1 III 2 932 GCA_000460755.1 1281214 562 Escherichia coli UMEA 3201-1 UMEA 3201-1 Proteobacteria KE701998.1 III 2 933 GCA_000461015.1 1281227 562 Escherichia coli UMEA 3240-1 UMEA 3240-1 Proteobacteria KE702179.1 III 2 934 GCA_000461115.1 1281233 562 Escherichia coli UMEA 3271-1 UMEA 3271-1 Proteobacteria KE702260.1 III 2 935 GCA_000461255.1 1281242 562 Escherichia coli UMEA 3329-1 UMEA 3329-1 Proteobacteria KE702361.1 III 2 936 GCA_000461315.1 1281247 562 Escherichia coli UMEA 3355-1 UMEA 3355-1 Proteobacteria KE702386.1 III 2 937 GCA_000461675.1 1281269 562 Escherichia coli UMEA 3718-1 UMEA 3718-1 Proteobacteria KE702585.1 III 2 938 GCA_000461855.1 1281278 562 Escherichia coli UMEA 4076-1 UMEA 4076-1 Proteobacteria KE702725.1 III 2 939 GCA_000026325.1 585056 562 Escherichia coli UMN026 UMN026 Proteobacteria CU928163.2 III 2 940 GCA_000262125.1 741093 562 Escherichia coli Xuzhou21 Xuzhou21 Proteobacteria CP001925.1 III 2 941 GCA_000968905.2 564 564 Escherichia fergusonii GTA-EF02 Proteobacteria JZWQ02000016.1 III 2 942 GCA_000026225.1 585054 564 Escherichia fergusonii ATCC 35469 Proteobacteria CU928158.2 III 2 943 GCA_000190495.1 550694 564 Escherichia fergusonii B253 B253 Proteobacteria GL870856.1 III 2 944 GCA_000408845.1 1279005 1279005 Escherichia sp. KTE172 KTE172 Proteobacteria KE137316.1 III 2 945 GCA_000961035.1 35554 35554 Geobacter sulfurreducens AM-1 Proteobacteria CP010430.1 III 2 946 GCA_000181475.1 344747 122 Gimesia maris DSM 8797 DSM 8797 Planctomycetes ABCE01000001.1 III 2 947 GCA_000333895.2 1056512 1056512 Grimontia indica AK16 Proteobacteria ANFM02000056.1 III 2 948 GCA_000961635.1 1629712 1629712 Hoeflea sp. BRH_c9 Proteobacteria LADQ01000154.1 III 2 949 GCA_000152885.1 314276 190892 Idiomarina baltica OS145 OS145 Proteobacteria CH672405.1 III 2 950 GCA_001577655.1 1794809 1794809 Idiomarina sp. T82-3 Proteobacteria LSBQ01000017.1 III 2 951 GCA_000723165.1 1349767 55508 Janthinobacterium agaricidamnosum NBRC 102515 = DSM 9628 DSM 9628 Proteobacteria HG322949.1 III 2 952 GCA_001038305.1 571 571 Klebsiella oxytoca GY84G39 Proteobacteria LDZM01000006.1 III 2 953 GCA_001078255.1 883124 571 Klebsiella oxytoca 10-5249 10-5249 Proteobacteria KQ235791.1 III 2 954 GCA_000607265.1 1409787 571 Klebsiella oxytoca G54 G54 Proteobacteria KK097710.1 III 2 955 GCA_000764635.1 573 573 Klebsiella pneumoniae BAMC 07-18 Proteobacteria JRQE01000009.1 III 2 956 GCA_000786375.1 573 573 Klebsiella pneumoniae 223/14 Proteobacteria JRTV01000011.1 III 2 957 GCA_000788005.1 573 573 Klebsiella pneumoniae 101712 Proteobacteria JSZJ01000008.1 III 2 958 GCA_000807515.2 573 573 Klebsiella pneumoniae 6234 Proteobacteria JWRK01000001.1 III 2 959 GCA_001031325.1 573 573 Klebsiella pneumoniae CHS112 Proteobacteria KQ088280.1 III 2 960 GCA_001031795.1 573 573 Klebsiella pneumoniae CHS140 Proteobacteria KQ088469.1 III 2 961 GCA_001033505.1 573 573 Klebsiella pneumoniae MGH84 Proteobacteria KQ089360.1 III 2 962 GCA_001033525.1 573 573 Klebsiella pneumoniae MGH89 Proteobacteria KQ089366.1 III 2 963 GCA_001033725.1 573 573 Klebsiella pneumoniae MGH101 Proteobacteria KQ089465.1 III 2 964 GCA_001033925.1 573 573 Klebsiella pneumoniae MGH124 Proteobacteria KQ089571.1 III 2 965 GCA_001185865.1 573 573 Klebsiella pneumoniae CHS175 Proteobacteria KQ236856.1 III 2 966 GCA_001307175.1 573 573 Klebsiella pneumoniae KP617 Proteobacteria CP012753.1 III 2 967 GCA_001441285.1 573 573 Klebsiella pneumoniae B86 Proteobacteria UCD01000021.1 III 2 968 GCA_001456055.1 573 573 Klebsiella pneumoniae KpN01 Proteobacteria CP012987.1 III 2 969 GCA_001456095.1 573 573 Klebsiella pneumoniae KpN06 Proteobacteria CP012992.1 III 2 970 GCA_001462825.1 573 573 Klebsiella pneumoniae K68-18 Proteobacteria LNHE01000086.1 III 2 971 GCA_001462845.1 573 573 Klebsiella pneumoniae K68-73 Proteobacteria LNHF01000070.1 III 2 972 GCA_001463085.1 573 573 Klebsiella pneumoniae 50580255 Proteobacteria LNHK01000055.1 III 2 973 GCA_001463165.1 573 573 Klebsiella pneumoniae U25 Proteobacteria CP012043.1 III 2 974 GCA_001463475.1 573 573 Klebsiella pneumoniae 50884375 Proteobacteria LNIS01000067.1 III 2 975 GCA_001483055.1 573 573 Klebsiella pneumoniae K1 Proteobacteria LOEJ01000055.1 III 2 976 GCA_001483725.1 573 573 Klebsiella pneumoniae K45-67 Proteobacteria LLWB01000171.1 III 2 977 GCA_001574505.1 573 573 Klebsiella pneumoniae U41 Proteobacteria LSTN01000011.1 III 2 978 GCA_001597015.1 573 573 Klebsiella pneumoniae KP-33P Proteobacteria JXJG01000034.1 III 2 979 GCA_000474635.1 1381121 573 Klebsiella pneumoniae 303K 303K Proteobacteria AVAN01000039.1 III 2 980 GCA_000567405.1 1328405 573 Klebsiella pneumoniae BIDMC 11 BIDMC 11 Proteobacteria KK036859.1 III 2 981 GCA_000492295.1 1328425 573 Klebsiella pneumoniae BIDMC 36 BIDMC 36 Proteobacteria KI535412.1 III 2 982 GCA_000694235.1 1438772 573 Klebsiella pneumoniae CHS 66 CHS 66 Proteobacteria KK737378.1 III 2 983 GCA_000530055.1 1432547 573 Klebsiella pneumoniae IS22 IS22 Proteobacteria CBWF010000048.1 III 2 984 GCA_000316265.2 1236101 573 Klebsiella pneumoniae JHCK1 JHCK1 Proteobacteria ANGH02000162.1 III 2 985 GCA_000406505.1 1284834 573 Klebsiella pneumoniae KP-11 KP-11 Proteobacteria APWE01000228.1 III 2 986 GCA_000406385.1 1284833 573 Klebsiella pneumoniae KP-7 KP-7 Proteobacteria AQQD01000021.1 III 2 987 GCA_000493135.1 1328363 573 Klebsiella pneumoniae MGH 18 MGH 18 Proteobacteria KI535680.1 III 2 988 GCA_000567745.1 1328371 573 Klebsiella pneumoniae MGH 35 MGH 35 Proteobacteria KK036965.1 III 2 989 GCA_000492775.1 1328378 573 Klebsiella pneumoniae MGH 46 MGH 46 Proteobacteria KI535587.1 III 2 990 GCA_000694715.1 1438797 573 Klebsiella pneumoniae MGH 74 MGH 74 Proteobacteria KK737643.1 III 2 991 GCA_000785005.1 72407 573 Klebsiella pneumoniae subsp. pneumoniae KPNIH31 Proteobacteria CP009876.1 III 2 992 GCA_000733255.1 1406314 573 Klebsiella pneumoniae subsp. pneumoniae PittNDM01 PittNDM01 Proteobacteria CP006798.1 III 2 993 GCA_000300675.1 1203545 573 Klebsiella pneumoniae subsp. pneumoniae WGLW2 WGLW2 Proteobacteria JH930419.1 III 2 994 GCA_000492595.1 1328391 573 Klebsiella pneumoniae UCICRE 4 UCICRE 4 Proteobacteria KI535510.1 III 2 995 GCA_000417465.1 1284818 573 Klebsiella pneumoniae UHKPC179 UHKPC179 Proteobacteria ARSM01000005.1 III 2 996 GCA_000409125.1 1284817 573 Klebsiella pneumoniae UHKPC57 UHKPC57 Proteobacteria ARPR01000126.1 III 2 997 GCA_000280495.1 1177180 283686 Kosakonia radicincitans DSM 16656 DSM 16656 Proteobacteria JH725436.1 III 2 998 GCA_000691205.1 1455607 283686 Kosakonia radicincitans UMEnt01/12 UMEnt01/12 Proteobacteria JDYJ01000004.1 III 2 999 GCA_000048665.1 297245 446 Legionella pneumophila str. Lens Lens Proteobacteria CR628337.1 III 2 1000 GCA_001468025.1 1122169 45075 Legionella shakespearei DSM 23087 ATCC 49655 Proteobacteria LNYW01000016.1 III 2 1001 GCA_000521805.1 1122207 263818 Marinomonas ushuaiensis DSM 15871 DSM 15871 Proteobacteria JAMB01000003.1 III 2 1002 GCA_000502395.1 1287232 1287232 Mesorhizobium sp. LNHC220B00 LNHC220B00 Proteobacteria AYWS01000016.1 III 2 1003 GCA_000502435.1 1287243 1287243 Mesorhizobium sp. LNHC232B00 LNHC232B00 Proteobacteria AYWP01000014.1 III 2 1004 GCA_000502975.1 1287268 1287268 Mesorhizobium sp. LNJC384A00 LNJC384A00 Proteobacteria AYWK01000002.1 III 2 1005 GCA_001425625.1 1736422 1736422 Mesorhizobium sp. Root102 Root102 Proteobacteria LMCP01000044.1 III 2 1006 GCA_000364445.1 908290 39956 Methylobacterium mesophilicum SR1.6/6 SR1.6/6 Proteobacteria ANPA01000017.1 III 2 1007 GCA_000364445.1 908290 39956 Methylobacterium mesophilicum SR1.6/6 SR1.6/6 Proteobacteria ANPA01000017.1 III 2 1008 GCA_001423385.1 1736262 1736262 Methylobacterium sp. Leaf121 Leaf121 Proteobacteria LMNP01000003.1 III 2 1009 GCA_001422165.1 1736242 1736242 Methylobacterium sp. Leaf86 Leaf86 Proteobacteria LMMG01000005.1 III 2 1010 GCA_001422265.1 1736246 1736246 Methylobacterium sp. Leaf90 Leaf90 Proteobacteria LMMN01000010.1 III 2 1011 GCA_000186165.1 435832 488 Neisseria mucosa C102 C102 Proteobacteria GL635793.1 III 2 1012 GCA_000235975.2 1088721 205844 Novosphingobium pentaromativorans US6-1 US6-1 Proteobacteria AGFM01000037.1 III 2 1013 GCA_000767465.1 1088721 205844 Novosphingobium pentaromativorans US6-1 US6-1 Proteobacteria CP009291.1 III 2 1014 GCA_000253255.1 702113 702113 Novosphingobium sp. PP1Y PP1Y Proteobacteria FR856862.1 III 2 1015 GCA_001476715.1 59814 59814 Pantoea dispersa NS215 Proteobacteria LDRY01000017.1 III 2 1016 GCA_001477165.1 59814 59814 Pantoea dispersa RSA31 Proteobacteria LDSC01000016.1 III 2 1017 GCA_000179655.1 517433 517433 Pantoea sp. aB aB Proteobacteria AEDL01000002.1 III 2 1018 GCA_000754715.1 78398 554 Pectobacterium carotovorum subsp. odoriferum NCPPB3841 Proteobacteria JQOF01000009.1 III 2 1019 GCA_000024645.1 561231 55208 Pectobacterium wasabiae WPP163 WPP163 Proteobacteria CP001790.1 III 2 1020 GCA_000153725.1 314265 344736 Pelagibaca bermudensis HTCC2601 HTCC2601 Proteobacteria DS022276.1 III 2 1021 GCA_000153425.1 314280 74109 Photobacterium profundum 3TCK 3TCK Proteobacteria CH724134.1 III 2 1022 GCA_000957245.1 61647 61647 Pluralibacter gergoviae 40874 Proteobacteria JZYL01000003.1 III 2 1023 GCA_001038225.1 61647 61647 Pluralibacter gergoviae JS81F13 Proteobacteria LDZF01000024.1 III 2 1024 GCA_001038285.1 61647 61647 Pluralibacter gergoviae SS84A28 Proteobacteria LDZJ01000006.1 III 2 1025 GCA_001546565.2 28125 28125 Prevotella bivia GED7760C Bacteroidetes KQ971199.1 III 2 1026 GCA_000224595.1 563031 563031 Prevotella sp. C561 C561 Bacteroidetes JH114144.1 III 2 1027 GCA_001463025.1 584 584 Proteus mirabilis 50664164 Proteobacteria LNHT01000079.1 III 2 1028 GCA_001469205.1 1761893 1761893 Pseudoalteromonas sp. H103 H103 Proteobacteria LOFG01000015.1 III 2 1029 GCA_000756575.1 287 287 Pseudomonas aeruginosa ATCC 33988 Proteobacteria JPQQ01000086.1 III 2 1030 GCA_000786565.1 287 287 Pseudomonas aeruginosa PS3 Proteobacteria JRGP01000061.1 III 2 1031 GCA_001420245.1 287 287 Pseudomonas aeruginosa ATCC 33351 Proteobacteria LJNX01000028.1 III 2 1032 GCA_001444915.1 287 287 Pseudomonas aeruginosa ATCC 33364 Proteobacteria LJZK01000128.1 III 2 1033 GCA_001449395.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07066 Proteobacteria LLLQ01000001.1 III 2 1034 GCA_001449485.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07166 Proteobacteria LLLV01000015.1 III 2 1035 GCA_001450095.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07245 Proteobacteria LLNQ01000041.1 III 2 1036 GCA_001450195.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07374 Proteobacteria LLNY01000068.1 III 2 1037 GCA_001450665.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07224 Proteobacteria LLMV01000078.1 III 2 1038 GCA_001450705.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07230 Proteobacteria LLNB01000014.1 III 2 1039 GCA_001450785.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07242 Proteobacteria LLNN01000029.1 III 2 1040 GCA_001450795.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07246 Proteobacteria LLNR01000113.1 III 2 1041 GCA_001450825.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07371 Proteobacteria LLNV01000083.1 III 2 1042 GCA_001450875.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07382 Proteobacteria LLOG01000021.1 III 2 1043 GCA_001451255.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07388 Proteobacteria LLOM01000115.1 III 2 1044 GCA_001451265.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07404 Proteobacteria LLOR01000110.1 III 2 1045 GCA_001451335.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07409 Proteobacteria LLOW01000068.1 III 2 1046 GCA_001451445.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07422 Proteobacteria LLPJ01000077.1 III 2 1047 GCA_001451455.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07424 Proteobacteria LLPL01000049.1 III 2 1048 GCA_001451505.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07426 Proteobacteria LLPN01000082.1 III 2 1049 GCA_001451865.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07502 Proteobacteria LLQI01000034.1 III 2 1050 GCA_001451975.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07621 Proteobacteria LLQS01000023.1 III 2 1051 GCA_001452235.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07642 Proteobacteria LLRN01000045.1 III 2 1052 GCA_001452325.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07647 Proteobacteria LLRS01000097.1 III 2 1053 GCA_001452495.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07689 Proteobacteria LLSJ01000050.1 III 2 1054 GCA_001452565.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07693 Proteobacteria LLSN01000128.1 III 2 1055 GCA_001453025.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07267 Proteobacteria LLTY01000116.1 III 2 1056 GCA_001453065.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07272 Proteobacteria LLUA01000034.1 III 2 1057 GCA_001453235.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07503 Proteobacteria LLQJ01000004.1 III 2 1058 GCA_001453385.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07629 Proteobacteria LLRA01000034.1 III 2 1059 GCA_001453415.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07632 Proteobacteria LLRD01000060.1 III 2 1060 GCA_001453435.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07638 Proteobacteria LLRJ01000019.1 III 2 1061 GCA_001453545.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07678 Proteobacteria LLRY01000012.1 III 2 1062 GCA_001453585.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07682 Proteobacteria LLSC01000012.1 III 2 1063 GCA_001453645.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07686 Proteobacteria LLSG01000023.1 III 2 1064 GCA_001453665.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07691 Proteobacteria LLSL01000020.1 III 2 1065 GCA_001453735.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07701 Proteobacteria LLSV01000117.1 III 2 1066 GCA_001453775.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07710 Proteobacteria LLTE01000056.1 III 2 1067 GCA_001453905.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07273 Proteobacteria LLUB01000034.1 III 2 1068 GCA_001454085.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07284 Proteobacteria LLUK01000105.1 III 2 1069 GCA_001454145.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07291 Proteobacteria LLUO01000065.1 III 2 1070 GCA_001454325.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07310 Proteobacteria LLUZ01000067.1 III 2 1071 GCA_001454415.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07317 Proteobacteria LLVF01000026.1 III 2 1072 GCA_001454725.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07305 Proteobacteria LLUW01000034.1 III 2 1073 GCA_001454745.1 287 287 Pseudomonas aeruginosa WH-SGI-V-07311 Proteobacteria LLVA01000045.1 III 2 1074 GCA_001516245.1 287 287 Pseudomonas aeruginosa F23197 Proteobacteria CP008856.1 III 2 1075 GCA_001516325.1 287 287 Pseudomonas aeruginosa H27930 Proteobacteria CP008860.1 III 2 1076 GCA_001554535.1 287 287 Pseudomonas aeruginosa AU12175 Proteobacteria LRYP01000010.1 III 2 1077 GCA_001554545.1 287 287 Pseudomonas aeruginosa AU13212 Proteobacteria LRYQ01000033.1 III 2 1078 GCA_001554585.1 287 287 Pseudomonas aeruginosa AU15431 Proteobacteria LRYV01000009.1 III 2 1079 GCA_001554615.1 287 287 Pseudomonas aeruginosa AU13213 Proteobacteria LRYS01000006.1 III 2 1080 GCA_001554625.1 287 287 Pseudomonas aeruginosa AU16960 Proteobacteria LRYT01000005.1 III 2 1081 GCA_001555135.1 287 287 Pseudomonas aeruginosa AU7032 Proteobacteria LRYU01000008.1 III 2 1082 GCA_001555145.1 287 287 Pseudomonas aeruginosa AU6923 Proteobacteria LRYO01000006.1 III 2 1083 GCA_001555415.1 287 287 Pseudomonas aeruginosa AU14820 Proteobacteria LSAG01000007.1 III 2 1084 GCA_001555425.1 287 287 Pseudomonas aeruginosa AU23529 Proteobacteria LSAI01000005.1 III 2 1085 GCA_001555455.1 287 287 Pseudomonas aeruginosa AU17965 Proteobacteria LSAH01000005.1 III 2 1086 GCA_001601595.1 287 287 Pseudomonas aeruginosa 105738 Proteobacteria LOHK01000062.1 III 2 1087 GCA_000647595.1 1339263 287 Pseudomonas aeruginosa 148 148 Proteobacteria ATAJ01000107.1 III 2 1088 GCA_000481105.1 1402543 287 Pseudomonas aeruginosa BL02 BL02 Proteobacteria KI518950.1 III 2 1089 GCA_000481085.1 1402544 287 Pseudomonas aeruginosa BL03 BL03 Proteobacteria KI518942.1 III 2 1090 GCA_000480965.1 1402550 287 Pseudomonas aeruginosa BL09 BL09 Proteobacteria KI518886.1 III 2 1091 GCA_000480905.1 1402553 287 Pseudomonas aeruginosa BL12 BL12 Proteobacteria KI518869.1 III 2 1092 GCA_000480885.1 1402554 287 Pseudomonas aeruginosa BL13 BL13 Proteobacteria KI518852.1 III 2 1093 GCA_000480745.1 1402561 287 Pseudomonas aeruginosa BL20 BL20 Proteobacteria KI518796.1 III 2 1094 GCA_000481485.1 1402511 287 Pseudomonas aeruginosa BWHPSA011 BWHPSA011 Proteobacteria KI519089.1 III 2 1095 GCA_000481245.1 1402523 287 Pseudomonas aeruginosa BWHPSA023 BWHPSA023 Proteobacteria KI519011.1 III 2 1096 GCA_000481145.1 1402528 287 Pseudomonas aeruginosa BWHPSA028 BWHPSA028 Proteobacteria KI518967.1 III 2 1097 GCA_000520415.1 1402531 287 Pseudomonas aeruginosa BWHPSA039 BWHPSA039 Proteobacteria KI914530.1 III 2 1098 GCA_000480515.1 1402572 287 Pseudomonas aeruginosa C20 C20 Proteobacteria KI518719.1 III 2 1099 GCA_000480495.1 1402573 287 Pseudomonas aeruginosa C23 C23 Proteobacteria KI518716.1 III 2 1100 GCA_000705175.1 1441459 287 Pseudomonas aeruginosa C2773C C2773C Proteobacteria JGZW01000193.1 III 2 1101 GCA_000481945.1 1402488 287 Pseudomonas aeruginosa CF127 CF127 Proteobacteria KI519290.1 III 2 1102 GCA_000291745.1 1078464 287 Pseudomonas aeruginosa NCMG1179 NCGM1179 Proteobacteria DF126593.1 III 2 1103 GCA_000342145.1 1285581 287 Pseudomonas aeruginosa PA21_ST175 PA21_ST175 Proteobacteria AOIH01000011.1 III 2 1104 GCA_000611995.2 1437873 287 Pseudomonas aeruginosa PA99 PA99 Proteobacteria KK111942.1 III 2 1105 GCA_000408865.1 1009714 287 Pseudomonas aeruginosa PAK PAK Proteobacteria KE137323.1 III 2 1106 GCA_000520195.1 1402581 287 Pseudomonas aeruginosa PS42 PS42 Proteobacteria KI914450.1 III 2 1107 GCA_000481725.1 1402499 287 Pseudomonas aeruginosa S35004 S35004 Proteobacteria KI519208.1 III 2 1108 GCA_000568215.1 1443105 287 Pseudomonas aeruginosa SG17M SG17M Proteobacteria JALF01000002.1 III 2 1109 GCA_000467105.1 1215092 43263 Pseudomonas alcaligenes NBRC 14159 NBRC 14159 Proteobacteria BATI01000047.1 III 2 1110 GCA_000467105.1 1215092 43263 Pseudomonas alcaligenes NBRC 14159 NBRC 14159 Proteobacteria BATI01000005.1 III 2 1111 GCA_000632535.1 653930 653930 Pseudomonas bauzanensis W13Z2 Proteobacteria JFHS01000003.1 III 2 1112 GCA_001586155.1 53408 53408 Pseudomonas citronellolis P3B5 Proteobacteria CP014158.1 III 2 1113 GCA_001400695.1 129135 53409 Pseudomonas coronafaciens pv. atropurpurea ICMP4457 Proteobacteria LJPS01000041.1 III 2 1114 GCA_001411475.1 1563157 1563157 Pseudomonas endophytica BSTT44 Proteobacteria LLWH01000162.1 III 2 1115 GCA_000242115.2 1117958 359110 Pseudomonas extremaustralis 14-3 substr. 14-3b 14-3 substr. 14-3b Proteobacteria AHIP01000001.1 III 2 1116 GCA_000876155.1 294 294 Pseudomonas fluorescens 2-79 Proteobacteria JXCQ01000014.1 III 2 1117 GCA_000952735.1 294 294 Pseudomonas fluorescens NT0133 Proteobacteria JYHW01000034.1 III 2 1118 GCA_001542725.1 294 294 Pseudomonas fluorescens Ps_40 Proteobacteria LCYC01000002.1 III 2 1119 GCA_000166515.1 746360 294 Pseudomonas fluorescens WH6 WH6 Proteobacteria CM001025.1 III 2 1120 GCA_001043005.1 122355 122355 Pseudomonas psychrophila DSM 17535 Proteobacteria JYKZ01000009.1 III 2 1121 GCA_000367825.1 1227924 303 Pseudomonas putida TRO1 TRO1 Proteobacteria APBQ01000056.1 III 2 1122 GCA_000478505.2 1203578 1203578 Pseudomonas sp. HPB0071 HPB0071 Proteobacteria KI517369.1 III 2 1123 GCA_000307775.2 1218352 316 Pseudomonas stutzeri KOS6 KOS6 Proteobacteria KK020676.1 III 2 1124 GCA_000341615.1 1212548 316 Pseudomonas stutzeri NF13 NF13 Proteobacteria AOBS01000069.1 III 2 1125 GCA_001293855.1 59511 251701 Pseudomonas syringae pv. maculicola 90_32 Proteobacteria LGLH01000088.1 III 2 1126 GCA_000735435.1 1005996 575 Raoultella planticola ATCC 33531 ATCC 33531 Proteobacteria JMPP01000005.1 III 2 1127 GCA_000020265.1 491916 29449 Rhizobium etli CIAT 652 CIAT 652 Proteobacteria CP001074.1 III 2 1128 GCA_000268285.2 1128399 396 Rhizobium phaseoli Ch24-10 Ch24-10 Proteobacteria AHJU02000014.1 III 2 1129 GCA_001425605.1 1736380 1736380 Rhizobium sp. Leaf453 Leaf453 Proteobacteria LMRG01000007.1 III 2 1130 GCA_000967425.1 1125847 1125847 Rhizobium sp. NT-26 NT-26 Proteobacteria FO082820.1 III 2 1131 GCA_001427345.1 1736473 1736473 Rhizobium sp. Root149 Root149 Proteobacteria LMGD01000001.1 III 2 1132 GCA_000931365.1 1604021 1604021 Rhizobium sp. UR51a UR51a Proteobacteria JYFU01000014.1 III 2 1133 GCA_001402715.1 1061 1061 Rhodobacter capsulatus B41 Proteobacteria LLVU01000015.1 III 2 1134 GCA_001402725.1 1061 1061 Rhodobacter capsulatus A52 Proteobacteria LLVV01000015.1 III 2 1135 GCA_000521785.1 1449350 93683 Roseivivax halodurans JCM 10272 JCM 10272 Proteobacteria JALZ01000004.1 III 2 1136 GCA_000961715.1 1629709 1629709 Roseovarius sp. BRH_c41 Proteobacteria LADY01000060.1 III 2 1137 GCA_000442315.1 1123069 295419 Rubellimicrobium thermophilum DSM 16684 DSM 16684 Proteobacteria KE557322.1 III 2 1138 GCA_001570325.1 28901 28901 Salmonella enterica NGUA40 Proteobacteria BCPM01000156.1 III 2 1139 GCA_001570345.1 28901 28901 Salmonella enterica NGUA41 Proteobacteria BCPN01000199.1 III 2 1140 GCA_000806705.1 59201 28901 Salmonella enterica subsp. enterica CFSAN024770 Proteobacteria JWQJ01000002.1 III 2 1141 GCA_000806725.1 59201 28901 Salmonella enterica subsp. enterica CFSAN024771 Proteobacteria JWQI01000002.1 III 2 1142 GCA_000487735.1 1194156 28901 Salmonella enterica subsp. enterica serovar Havana str. CFSAN001082 Proteobacteria APAH01000409.1 III 2 CFSAN001082 1143 GCA_001187365.1 595 28901 Salmonella enterica subsp. enterica serovar Infantis Sal280 Proteobacteria LFGW01000205.1 III 2 1144 GCA_000818075.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A CMCC 50973 Proteobacteria CP009049.1 III 2 1145 GCA_000818115.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A CMCC 50503 Proteobacteria CP009559.1 III 2 1146 GCA_000983135.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTC01000001.1 III 2 1147 GCA_000983155.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTP01000001.1 III 2 1148 GCA_000983175.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLD01000002.1 III 2 1149 GCA_000983195.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTT01000001.1 III 2 1150 GCA_000983215.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVA01000001.1 III 2 1151 GCA_000983235.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUS01000001.1 III 2 1152 GCA_000983255.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCNZ01000001.1 III 2 1153 GCA_000983275.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVV01000001.1 III 2 1154 GCA_000983295.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLR01000001.1 III 2 1155 GCA_000983315.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CGIE01000004.1 III 2 1156 GCA_000983335.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCNY01000001.1 III 2 1157 GCA_000983355.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUY01000004.1 III 2 1158 GCA_000983375.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLN01000001.1 III 2 1159 GCA_000983395.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTO01000001.1 III 2 1160 GCA_000983415.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUE01000001.1 III 2 1161 GCA_000983435.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSP01000001.1 III 2 1162 GCA_000983485.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLS01000001.1 III 2 1163 GCA_000983505.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSN01000001.1 III 2 1164 GCA_000983535.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVL01000001.1 III 2 1165 GCA_000983565.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUC01000004.1 III 2 1166 GCA_000983595.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCNT01000003.1 III 2 1167 GCA_000983625.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUP01000001.1 III 2 1168 GCA_000983645.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLA01000004.1 III 2 1169 GCA_000983685.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLI01000001.1 III 2 1170 GCA_000983705.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKR01000004.1 III 2 1171 GCA_000983735.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTA01000001.1 III 2 1172 GCA_000983755.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLQ01000001.1 III 2 1173 GCA_000983775.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSR01000004.1 III 2 1174 GCA_000983795.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKX01000001.1 III 2 1175 GCA_000983835.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLZ01000001.1 III 2 1176 GCA_000983855.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUI01000001.1 III 2 1177 GCA_000983875.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTL01000001.1 III 2 1178 GCA_000983895.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUH01000001.1 III 2 1179 GCA_000983915.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUJ01000001.1 III 2 1180 GCA_000983935.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUV01000001.1 III 2 1181 GCA_000983955.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUM01000001.1 III 2 1182 GCA_000983975.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLM01000001.1 III 2 1183 GCA_000983995.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCMD01000001.1 III 2 1184 GCA_000984025.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTI01000001.1 III 2 1185 GCA_000984045.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVG01000001.1 III 2 1186 GCA_000984075.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSV01000001.1 III 2 1187 GCA_000984095.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLX01000001.1 III 2 1188 GCA_000984115.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUD01000001.1 III 2 1189 GCA_000984135.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUX01000001.1 III 2 1190 GCA_000984175.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTZ01000003.1 III 2 1191 GCA_000984195.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCML01000001.1 III 2 1192 GCA_000984215.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTN01000001.1 III 2 1193 GCA_000984235.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUB01000001.1 III 2 1194 GCA_000984255.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUR01000001.1 III 2 1195 GCA_000984275.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVD01000005.1 III 2 1196 GCA_000984295.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKT01000001.1 III 2 1197 GCA_000984315.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUO01000002.1 III 2 1198 GCA_000984335.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCME01000001.1 III 2 1199 GCA_000984355.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVJ01000005.1 III 2 1200 GCA_000984375.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSY01000004.1 III 2 1201 GCA_000984395.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUU01000001.1 III 2 1202 GCA_000984415.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCMA01000001.1 III 2 1203 GCA_000984435.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSU01000001.1 III 2 1204 GCA_000984455.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKS01000001.1 III 2 1205 GCA_000984475.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVF01000001.1 III 2 1206 GCA_000984495.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCST01000001.1 III 2 1207 GCA_000984515.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKU01000001.1 III 2 1208 GCA_000984535.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUL01000001.1 III 2 1209 GCA_000984555.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKY01000002.1 III 2 1210 GCA_000984575.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUG01000001.1 III 2 1211 GCA_000984595.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLG01000001.1 III 2 1212 GCA_000984615.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLO01000005.1 III 2 1213 GCA_000984635.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTM01000001.1 III 2 1214 GCA_000984655.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKZ01000001.1 III 2 1215 GCA_000984675.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTJ01000001.1 III 2 1216 GCA_000984695.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSW01000001.1 III 2 1217 GCA_000984715.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVH01000001.1 III 2 1218 GCA_000984735.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKW01000001.1 III 2 1219 GCA_000984755.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTE01000001.1 III 2 1220 GCA_000984795.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLJ01000001.1 III 2 1221 GCA_000984815.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSX01000002.1 III 2 1222 GCA_000984835.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTW01000001.1 III 2 1223 GCA_000984855.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLU01000001.1 III 2 1224 GCA_000984875.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTK01000001.1 III 2 1225 GCA_000984895.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCNU01000001.1 III 2 1226 GCA_000984915.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCNV01000001.1 III 2 1227 GCA_000984935.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLW01000001.1 III 2 1228 GCA_000984955.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLY01000001.1 III 2 1229 GCA_000984975.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLL01000004.1 III 2 1230 GCA_000984995.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSM01000001.1 III 2 1231 GCA_000985015.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUF01000001.1 III 2 1232 GCA_000985035.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLT01000001.1 III 2 1233 GCA_000985055.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCMC01000001.1 III 2 1234 GCA_000985075.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUZ01000001.1 III 2 1235 GCA_000985095.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLF01000001.1 III 2 1236 GCA_000985115.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTU01000001.1 III 2 1237 GCA_000985135.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUN01000001.1 III 2 1238 GCA_000985155.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLE01000001.1 III 2 1239 GCA_000985175.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTR01000001.1 III 2 1240 GCA_000985195.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUW01000001.1 III 2 1241 GCA_000985215.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLP01000001.1 III 2 1242 GCA_000985235.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLK01000001.1 III 2 1243 GCA_000985255.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSS01000001.1 III 2 1244 GCA_000985275.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSO01000001.1 III 2 1245 GCA_000985295.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUT01000001.1 III 2 1246 GCA_000985315.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTQ01000001.1 III 2 1247 GCA_000985335.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVC01000001.1 III 2 1248 GCA_000985355.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVE01000001.1 III 2 1249 GCA_000985375.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTG01000001.1 III 2 1250 GCA_000985395.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSL01000001.1 III 2 1251 GCA_000985415.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVB01000003.1 III 2 1252 GCA_000985435.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUA01000001.1 III 2 1253 GCA_000985455.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCNX01000001.1 III 2 1254 GCA_000985475.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSZ01000004.1 III 2 1255 GCA_000985495.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTD01000002.1 III 2 1256 GCA_000985515.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVI01000001.1 III 2 1257 GCA_000985535.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUK01000001.1 III 2 1258 GCA_000985555.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTX01000003.1 III 2 1259 GCA_000985575.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTF01000001.1 III 2 1260 GCA_000985595.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCUQ01000001.1 III 2 1261 GCA_000985615.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCMF01000001.1 III 2 1262 GCA_000985655.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTY01000001.1 III 2 1263 GCA_000985675.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCKV01000001.1 III 2 1264 GCA_000985695.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTV01000001.1 III 2 1265 GCA_000985715.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCVK01000001.1 III 2 1266 GCA_000985735.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCMB01000001.1 III 2 1267 GCA_000985755.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCLH01000001.1 III 2 1268 GCA_000985775.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSQ01000001.1 III 2 1269 GCA_000985795.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTH01000001.1 III 2 1270 GCA_000985815.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCSK01000001.1 III 2 1271 GCA_000985835.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCNW01000001.1 III 2 1272 GCA_000985855.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A Proteobacteria CCTB01000001.1 III 2 1273 GCA_001045395.1 54388 28901 Salmonella enterica subsp. enterica serovar Paratyphi A CMCC50093 Proteobacteria CP011967.1 III 2 1274 GCA_000026565.1 554290 28901 Salmonella enterica subsp. enterica serovar Paratyphi A str. AKU12601 Proteobacteria FM200053.1 III 2 AKU_12601 1275 GCA_000486725.1 941189 28901 Salmonella enterica subsp. enterica serovar Paratyphi A str. ATCC 11511 Proteobacteria AOYH01000034.1 III 2 ATCC 11511 1276 GCA_000011885.1 295319 28901 Salmonella enterica subsp. enterica serovar Paratyphi A str. ATCC 9150 Proteobacteria CP000026.1 III 2 ATCC 9150 1277 GCA_000411815.1 1072568 28901 Salmonella enterica subsp. enterica serovar Paratyphi A str. GXS2268 Proteobacteria AFYX01000025.1 III 2 GXS2268 1278 GCA_000411795.1 1072569 28901 Salmonella enterica subsp. enterica serovar Paratyphi A str. GZ9A00052 Proteobacteria AFYW01000030.1 III 2 GZ9A00052 1279 GCA_000411835.1 1072570 28901 Salmonella enterica subsp. enterica serovar Paratyphi A str. JX05- JX05-19 Proteobacteria AFYY01000027.1 III 2 19 1280 GCA_001448825.1 1243588 28901 Salmonella enterica subsp. enterica serovar Paratyphi A str. SA19950809 Proteobacteria LHTE01000005.1 III 2 SA19950809 1281 GCA_000335835.1 687914 28901 Salmonella enterica subsp. enterica serovar Rissen str. 150 150 Proteobacteria AHUI01000053.1 III 2 1282 GCA_000231685.2 913082 28901 Salmonella enterica subsp. enterica serovar Senftenberg str. A4- A4-543 Proteobacteria AFCU01002067.1 III 2 543 1283 GCA_000486525.1 930772 28901 Salmonella enterica subsp. enterica serovar Senftenberg str. ATCC 43845 Proteobacteria AOXX01000100.1 III 2 ATCC 43845 1284 GCA_001409135.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5462388 Proteobacteria LN890518.1 III 2 1285 GCA_001409155.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5712384 Proteobacteria LN890522.1 III 2 1286 GCA_001409175.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5712385 Proteobacteria LN890524.1 III 2 1287 GCA_001409195.1 57743 28901 Salmonella enterica subsp. enterica serovar Weltevreden 2511STDY5462413 Proteobacteria LN890520.1 III 2 1288 GCA_000230505.1 936157 28901 Salmonella enterica subsp. enterica serovar Weltevreden str. 2007-60-3289-1 Proteobacteria FR775224.1 III 2 2007-60-3289-1 1289 GCA_000171495.1 465518 28901 Salmonella enterica subsp. enterica serovar Weltevreden str. HI_N05-537 Proteobacteria ABFF01000010.1 III 2 HI_N05-537 1290 GCA_001241965.1 1160769 28901 Salmonella enterica subsp. enterica serovar Worthingtor CVM N45406 Proteobacteria LHGK01000019.1 III 2 1291 GCA_001242245.1 1160769 28901 Salmonella enterica subsp. enterica serovar Worthingtor CVM N45931 Proteobacteria LHGV01000001.1 III 2 1292 GCA_001243275.1 1160769 28901 Salmonella enterica subsp. enterica serovar Worthingtor CVM N46835 Proteobacteria LHIL01000018.1 III 2 1293 GCA_001247285.1 1160769 28901 Salmonella enterica subsp. enterica serovar Worthingtor CVM N51304 Proteobacteria LHOK01000001.1 III 2 1294 GCA_001479505.1 1160769 28901 Salmonella enterica subsp. enterica serovar Worthingtor CVM N32773 Proteobacteria JYWH01000045.1 III 2 1295 GCA_001480165.1 1160769 28901 Salmonella enterica subsp. enterica serovar Worthingtor CVM N40374 Proteobacteria JYYI01000001.1 III 2 1296 GCA_000486265.1 1173940 28901 Salmonella enterica subsp. enterica serovar Worthington str. ATCC 9607 Proteobacteria AOXK01000084.1 III 2 ATCC 9607 1297 GCA_001034405.1 615 615 Serratia marcescens UCI88 Proteobacteria KQ089789.1 III 2 1298 GCA_001537045.1 615 615 Serratia marcescens 2880STDY5682914 Proteobacteria FCMH01000002.1 III 2 1299 GCA_001537345.1 615 615 Serratia marcescens 2880STDY5682872 Proteobacteria FCHZ01000003.1 III 2 1300 GCA_000633715.1 1445864 615 Serratia marcescens BIDMC 80 BIDMC 80 Proteobacteria KK214321.1 III 2 1301 GCA_000163595.1 667129 618 Serratia odorifera DSM 4582 DSM 4582 Proteobacteria GG753567.1 III 2 1302 GCA_000743355.1 1524467 1524467 Serratia sp. Ag1 Ag1 Proteobacteria JQEI01000016.1 III 2 1303 GCA_000743365.1 1532556 1532556 Serratia sp. Ag2 Ag2 Proteobacteria JQEJ01000056.1 III 2 1304 GCA_000203935.1 94122 94122 Shewanella sp. ANA-3 ANA-3 Proteobacteria CP000469.1 III 2 1305 GCA_000262305.1 630626 563 Shimwellia blattae DSM 4481 = NBRC 105725 DSM 4481 Proteobacteria CP001560.1 III 2 1306 GCA_000327265.1 630626 563 Shimwellia blattae DSM 4481 = NBRC 105725 NBRC 105725 Proteobacteria BAHA01000013.1 III 2 1307 GCA_000018545.1 394 380 Sinorhizobium fredii NGR234 NGR234 Proteobacteria CP001389.1 III 2 1308 GCA_000067165.1 448385 56 Sorangium cellulosum So ce56 So ce 56 Proteobacteria AM746676.1 III 2 1309 GCA_000421925.1 1346790 420233 Sphingobium chinhatense IP26 IP26 Proteobacteria AUDA01000025.1 III 2 1310 GCA_001005725.1 56193 56193 Sphingobium chungbukense DJ77 Proteobacteria LBIC01000001.1 III 2 1311 GCA_000382885.1 1301087 332056 Sphingobium japonicum BiD32 BiD32 Proteobacteria CAVK010000098.1 III 2 1312 GCA_000633575.2 1450518 440518 Sphingobium lucknowense F2 F2 Proteobacteria JANF02000056.1 III 2 1313 GCA_001421635.1 1735692 1735692 Sphingomonas sp. Leaf25 Leaf25 Proteobacteria LMKU01000030.1 III 2 1314 GCA_001399755.1 381306 381306 Thiohalorhabdus denitrificans HL 19 Proteobacteria LJCP01000010.1 III 2 1315 GCA_001425205.1 1736530 1736530 Variovorax sp. Root411 Root411 Proteobacteria LMDW01000005.1 III 2 1316 GCA_001010935.1 663 663 Vibrio alginolyticus V2 Proteobacteria LCSG01000013.1 III 2 1317 GCA_000154025.1 410291 680 Vibrio campbellii HY01 HY01 Proteobacteria DS179487.1 III 2 1318 GCA_000785575.1 701175 701175 Vibrio caribbeanicus T14 Proteobacteria JRWR01000004.1 III 2 1319 GCA_000736945.1 666 666 Vibrio cholerae 571-88 Proteobacteria JIDO01000026.1 III 2 1320 GCA_000737005.1 666 666 Vibrio cholerae 234-93 Proteobacteria JMBO01000023.1 III 2 1321 GCA_000279285.1 991946 666 Vibrio cholerae HE-45 HE-45 Proteobacteria ALED01000027.1 III 2 1322 GCA_000348345.2 1095649 666 Vibrio cholerae O1 str. EM-1676A EM-1676A Proteobacteria KB662755.1 III 2 1323 GCA_000152465.2 345075 666 Vibrio cholerae V51 V51 Proteobacteria KQ257379.1 III 2 1324 GCA_000467185.1 1219080 252583 Vibrio ezurae NBRC 102218 NBRC 102218 Proteobacteria BATM01000020.1 III 2 1325 GCA_001262735.1 669 669 Vibrio harveyi VH2 Proteobacteria LGYS01000041.1 III 2 1326 GCA_000786865.1 670 670 Vibrio parahaemolyticus 09.5357 Proteobacteria JTGT01000603.1 III 2 1327 GCA_001270155.1 670 670 Vibrio parahaemolyticus S439-9 Proteobacteria LFZA01000109.1 III 2 1328 GCA_000808535.1 379097 379097 Vibrio sinaloensis AD048 Proteobacteria JWLV01000045.1 III 2 1329 GCA_001597935.1 1763885 1763885 Vibrio sp. 2538-88 2538-88 Proteobacteria LOBR01000072.1 III 2 1330 GCA_000305755.2 992012 992012 Vibrio sp. HENC-03 HENC-03 Proteobacteria JH976122.1 III 2 1331 GCA_001048635.1 1507980 1507980 Vibrio sp. J2-31 J2-31 Proteobacteria CCKO01000056.1 III 2 1332 GCA_000091465.1 575788 212663 Vibrio tasmaniensis LGP32 LGP32 Proteobacteria FM954972.2 III 2 1333 GCA_001541335.1 1194427 1194427 Vibrio toranzoniae Vb 10.8 Proteobacteria LMXU01000013.1 III 2 1334 GCA_001274855.1 170661 170661 Vibrio xuii DSM 17185 Proteobacteria LHPK01000025.1 III 2 1335 GCA_001131685.1 634 634 Yersinia bercovieri 127/84 Proteobacteria CQBU01000002.1 III 2 1336 GCA_001219605.1 630 630 Yersinia enterocolitica YE04/02 Proteobacteria CTKX01000003.1 III 2 1337 GCA_001220145.1 630 630 Yersinia enterocolitica YE38/03 Proteobacteria CTKL01000007.1 III 2 1338 GCA_001319585.1 29484 29484 Yersinia frederiksenii 38/83 Proteobacteria CGCC01000006.1 III 2 1339 GCA_001142305.1 419257 419257 Yersinia massiliensis 24070 Proteobacteria CQBH01000001.1 III 2 1340 GCA_001319885.1 633 633 Yersinia pseudotuberculosis OK6088 Proteobacteria CGGM01000007.1 III 2 1341 GCA_000737165.1 29486 29486 Yersinia ruckeri 37551 Proteobacteria JPF001000008.1 III 2 1342 GCA_000964565.1 29486 29486 Yersinia ruckeri Big Creek 74 Proteobacteria CP011078.1 III 2 1343 GCA_000239335.1 1002368 158877 Yokenella regensburgei ATCC 43003 ATCC 43003 Proteobacteria JH417862.1 III 2 (Part B) M Q U DruA DruB DruC J K L protein N O P protein R S T protein V W X DruA PRT SEQ DNA SEQ length DruB PRT SEQ DNA SEQ length DruC PRT SEQ DNA SEQ length DruD PRT SEQ DNA SEQ 1 protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: 2 CEP95570.1 23934 27163 531 CEP95571.1 23935 27164 669 CEP95572.1 23936 27165 3 KUO96130.1 23938 27167 411 KUO96131.1 23939 27168 468 KUO96132.1 23940 27169 604 KUO96133.1 23941 27170 4 GAC90451.1 23943 27172 504 GAC90452.1 23944 27173 659 GAC90453.1 23945 27174 5 KQT61309.1 23947 27176 678 KQT61312.1 23948 27177 6 KQT62611.1 23950 27179 678 KQT62614.1 23951 27180 7 KMN72587.1 23953 27182 502 KMN72586.1 23954 27183 662 KMN72585.1 23955 27184 8 EJQ91443.1 23957 27186 502 EJQ91444.1 23958 27187 662 EJQ91445.1 23959 27188 9 CRK83009.1 23961 27190 481 CRK83010.1 23962 27191 640 CRK83011.1 23963 27192 10 KEF29420.1 23965 27194 519 KEF29418.1 23966 27195 11 ETO96271.1 23968 27197 513 ETO96375.1 23969 27198 12 ALK08980.1 23971 27200 418 ALK08978.1 23972 27201 13 CUU41641.1 23974 27203 418 CUU41639.1 23975 27204 14 KGC93367.1 23977 27206 400 KGC93228.1 23978 27207 505 KGC93290.1 23979 27208 854 KGC93264.1 23980 27209 15 KGV74617.1 23982 27211 405 KGV74230.1 23983 27212 16 EDO89776.1 23985 27214 400 EDO89775.1 23986 27215 523 EDO89774.1 23987 27216 858 17 AJX60919.1 23989 27218 400 AJX61068.1 23990 27219 457 AJX59269.1 23991 27220 858 AJX59244.1 23992 27221 18 AIP62558.1 23994 27223 400 AJT48645.1 23995 27224 211 19 KVO65551.1 23997 27226 400 KVO65550.1 23998 27227 211 KVO65549.1 23999 27228 841 20 KVO87083.1 24001 27230 400 KVO87084.1 24002 27231 211 21 CDI04329.1 24004 27233 401 CDI04327.1 24005 27234 22 KPA09471.1 24007 27236 522 KPA09470.1 24008 27237 594 KPA09469.1 24009 27238 23 KHD06506.1 24011 27240 632 KHD06507.1 24012 27241 24 KJH65670.1 24014 27243 409 KJH65671.1 24015 27244 555 KJH65672.1 24016 27245 623 KJH65673.1 24017 27246 25 CDM70052.1 24019 27248 531 CDM70054.1 24020 27249 299 CDM70055.1 24021 27250 26 KEI16341.1 24023 27252 674 KEI16342.1 24024 27253 27 EGB92907.1 24026 27255 478 EGB92908.1 24027 27256 483 EGB92909.1 24028 27257 28 ACL18694.1 24030 27259 479 ACL18696.1 24031 27260 29 ACV64027.1 24033 27262 480 ACV64029.1 24034 27263 30 AMC93642.1 24036 27265 481 AMC93640.1 24037 27266 31 KHG78165.1 24039 27268 404 KHG78164.1 24040 27269 548 KHG78163.1 24041 27270 627 KHG78162.1 24042 27271 32 KHI73843.1 24044 27273 404 KHI73842.1 24045 27274 548 KHI73841.1 24046 27275 627 KHI73840.1 24047 27276 33 KHI66626.1 24049 27278 398 KHI66627.1 24050 27279 34 KHI48864.1 24052 27281 404 KHI48865.1 24053 27282 548 KHI48866.1 24054 27283 627 KHI48867.1 24055 27284 35 KHI24189.1 24057 27286 404 KHI24188.1 24058 27287 627 KHI24187.1 24059 27288 36 KMV42884.1 24061 27290 404 KMV42883.1 24062 27291 548 KMV42882.1 24063 27292 627 KMV42881.1 24064 27293 37 KQJ50747.1 24066 27295 404 KQJ50746.1 24067 27296 548 KQJ50745.1 24068 27297 627 KQJ50744.1 24069 27298 38 ALN47010.1 24071 27300 404 ALN47011.1 24072 27301 548 ALN47012.1 24073 27302 627 ALN47013.1 24074 27303 39 KSY14484.1 24076 27305 404 KSY14483.1 24077 27306 548 KSY14482.1 24078 27307 627 KSY14481.1 24079 27308 40 KXR68579.1 24081 27310 404 KXR68578.1 24082 27311 548 KXR68577.1 24083 27312 627 KXR68576.1 24084 27313 41 KIO85517.1 24086 27315 404 KIO85917.1 24087 27316 548 KIO85687.1 24088 27317 627 KIO84333.1 24089 27318 42 EQS48043.1 24091 27320 404 EQS48044.1 24092 27321 548 EQS48045.1 24093 27322 627 EQS48046.1 24094 27323 43 EQO85266.1 24096 27325 404 EQO85267.1 24097 27326 548 EQO85268.1 24098 27327 627 EQO85269.1 24099 27328 44 EQO74905.1 24101 27330 404 EQO74906.1 24102 27331 548 EQO74907.1 24103 27332 627 EQO74908.1 24104 27333 45 EYT06138.1 24106 27335 404 EYT06139.1 24107 27336 548 EYT06140.1 24108 27337 627 EYT06141.1 24109 27338 46 EQV41654.1 24111 27340 404 EQV41653.1 24112 27341 548 EQV41652.1 24113 27342 627 EQV41651.1 24114 27343 47 ELC24068.1 24116 27345 404 ELC24069.1 24117 27346 548 ELC24070.1 24118 27347 627 ELC24071.1 24119 27348 48 ELH39084.1 24121 27350 404 ELH39085.1 24122 27351 548 ELH39086.1 24123 27352 627 ELH39087.1 24124 27353 49 EOV00819.1 24126 27355 404 EOV00818.1 24127 27356 548 EOV00817.1 24128 27357 627 EOV00816.1 24129 27358 50 EOU57734.1 24131 27360 404 EOU57733.1 24132 27361 548 EOU57732.1 24133 27362 627 EOU57731.1 24134 27363 51 ELE47058.1 24136 27365 404 ELE47059.1 24137 27366 548 ELE47060.1 24138 27367 627 ELE47061.1 24139 27368 52 ELE76866.1 24141 27370 404 ELE76867.1 24142 27371 548 ELE76868.1 24143 27372 627 ELE76869.1 24144 27373 53 EU64783.1 24146 27375 404 ELJ64784.1 24147 27376 548 ELJ64785.1 24148 27377 627 ELJ64786.1 24149 27378 54 EOV85617.1 24151 27380 404 EOV85618.1 24152 27381 548 EOV85619.1 24153 27382 627 EOV85620.1 24154 27383 55 ELE86430.1 24156 27385 404 ELE86431.1 24157 27386 548 ELE86432.1 24158 27387 627 ELE86433.1 24159 27388 56 EWY52046.1 24161 27390 404 EWY52045.1 24162 27391 548 EWY52044.1 24163 27392 627 EWY52043.1 24164 27393 57 EFK51863.1 24166 27395 404 EFK51864.1 24167 27396 251 EFK51865.1 24168 27397 627 EFK51866.1 24169 27398 58 EGU96601.1 24171 27400 530 EGU96602.1 24172 27401 59 EMZ39757.1 24174 27403 404 EMZ39756.1 24175 27404 548 EMZ39755.1 24176 27405 627 EMZ39754.1 24177 27406 60 EGI33548.1 24179 27408 548 EGI33546.1 24180 27409 403 EGI33545.1 24181 27410 61 EQX30244.1 24183 27412 404 EQX30245.1 24184 27413 548 EQX30246.1 24185 27414 627 EQX30247.1 24186 27415 62 EQZ12277.1 24188 27417 404 EQZ12278.1 24189 27418 548 EQZ12279.1 24190 27419 627 EQZ12280.1 24191 27420 63 ERA40829.1 24193 27422 404 ERA40830.1 24194 27423 548 ERA40831.1 24195 27424 627 ERA40832.1 24196 27425 64 CDA97617.1 24198 27427 479 CDA97616.1 24199 27428 635 CDA97615.1 24200 27429 65 KFX30971.1 24202 27431 432 KFX30970.1 24203 27432 660 KFX30969.1 24204 27433 66 KYD25149.1 24206 27435 506 KYD25148.1 24207 27436 660 KYD25147.1 24208 27437 67 KLR73615.1 24210 27439 182 KLR73616.1 24211 27440 68 ADU94762.1 24213 27442 432 ADU94761.1 24214 27443 660 ADU94760.1 24215 27444 69 ACX76983.1 24217 27446 432 ACX76984.1 24218 27447 660 ACX76985.1 24219 27448 70 KFL17490.1 24221 27450 253 KFL17491.1 24222 27451 660 KFL17492.1 24223 27452 71 KFX35838.1 24225 27454 432 KFX35839.1 24226 27455 660 KFX35840.1 24227 27456 72 EDQ34548.2 24229 27458 406 EDQ34544.2 24230 27459 73 KRB96408.1 24232 27461 398 KRB96406.1 24233 27462 74 AGK57206.1 24235 27464 419 AGK57208.1 24236 27465 75 KMV96850.1 24238 27467 404 KMV96849.1 24239 27468 549 KMV96848.1 24240 27469 627 KMV96847.1 24241 27470 76 ESN04444.1 24243 27472 406 ESN04438.1 24244 27473 903 ESN04442.1 24245 27474 77 ABX40973.1 24247 27476 648 ABX40974.1 24248 27477 78 EOS72131.1 24250 27479 479 EOS72130.1 24251 27480 636 EOS72129.1 24252 27481 79 EDM25760.1 24254 27483 513 EDM25761.1 24255 27484 674 80 ESY17003.1 24257 27486 676 ESY17069.1 24258 27487 81 KUK70368.1 24260 27489 537 KUK70367.1 24261 27490 831 KUK70366.1 24262 27491 82 EHQ36502.1 24264 27493 540 EHQ36503.1 24265 27494 721 EHQ36504.1 24266 27495 83 KKG83063.1 24268 27497 529 KKG83062.1 24269 27498 719 KKG83061.1 24270 27499 84 EQM86812.1 24272 27501 662 EQM86809.1 24273 27502 85 AU18572.1 24275 27504 661 ALJ18569.1 24276 27505 86 GAD34403.1 24278 27507 661 GAD34407.1 24279 27508 87 ADJ29888.1 24281 27510 432 ADJ29890.1 24282 27511 88 KMP10704.1 24284 27513 402 KMP10706.1 24285 27514 89 EGY00299.1 24287 27516 677 EGY00302.1 24288 27517 90 EPY09175.1 24290 27519 473 EPY09174.1 24291 27520 646 EPY09173.1 24292 27521 91 ACX63337.1 24294 27523 545 ACX63338.1 24295 27524 656 ACX63339.1 24296 27525 92 KHN90278.1 24298 27527 404 KHN90279.1 24299 27528 537 KHN90280.1 24300 27529 627 KHN90281.1 24301 27530 93 KGA32599.1 24303 27532 406 KGA32597.1 24304 27533 94 AJQ25677.1 24306 27535 477 AJQ25678.1 24307 27536 527 AJQ25679.1 24308 27537 95 CUH95392.1 24310 27539 476 CUH95393.1 24311 27540 527 CUH95394.1 24312 27541 96 KSF97359.1 24314 27543 406 KSF97360.1 24315 27544 425 KSF97361.1 24316 27545 630 97 KSL25396.1 24318 27547 116 KSL25395.1 24319 27548 98 KSO15708.1 24321 27550 406 KSO15707.1 24322 27551 425 KSO15706.1 24323 27552 630 99 BAR67377.1 24325 27554 409 BAR67378.1 24326 27555 556 BAR67379.1 24327 27556 625 BAR67380.1 24328 27557 100 KAJ21868.1 24330 27559 343 KAJ21867.1 24331 27560 630 KAJ21866.1 24332 27561 101 AGI81181.1 24334 27563 409 AGI81182.1 24335 27564 464 102 ERY34412.1 24337 27566 411 ERY34411.1 24338 27567 555 ERY34410.1 24339 27568 630 ERY34409.1 24340 27569 103 EZP23709.1 24342 27571 409 EZP23710.1 24343 27572 476 EZP23711.1 24344 27573 625 EZP23712.1 24345 27574 104 ERV69455.1 24347 27576 406 ERV69456.1 24348 27577 548 ERV69457.1 24349 27578 611 ERV69458.1 24350 27579 105 EQM83903.1 24352 27581 268 EQM83904.1 24353 27582 425 EQM83905.1 24354 27583 630 106 AJP52372.1 24356 27585 409 AJP52373.1 24357 27586 555 AJP52374.1 24358 27587 629 AJP52375.1 24359 27588 107 EST14444.1 24361 27590 409 EST14388.1 24362 27591 555 EST14448.1 24363 27592 629 EST14478.1 24364 27593 108 ENY74498.1 24366 27595 411 ENY74499.1 24367 27596 479 ENY74500.1 24368 27597 630 ENY74501.1 24369 27598 109 KWR75280.1 24371 27600 409 KWR75281.1 24372 27601 110 KFE46436.1 24374 27603 409 KFE46437.1 24375 27604 554 KFE46438.1 24376 27605 630 KFE46439.1 24377 27606 111 AMP72541.1 24379 27608 413 AMP72542.1 24380 27609 477 AMP72543.1 24381 27610 623 AMP72544.1 24382 27611 112 KQQ11279.1 24384 27613 652 KQQ11277.1 24385 27614 113 KQS82596.1 24387 27616 679 KQS82593.1 24388 27617 114 KQS78959.1 24390 27619 679 KQS78956.1 24391 27620 115 AKE89966.1 24393 27622 712 AKE89965.1 24394 27623 116 EME23883.1 24396 27625 608 EME23884.1 24397 27626 117 CDZ88170.1 24399 27628 515 CDZ88169.1 24400 27629 713 CDZ88168.1 24401 27630 118 ETI62660.1 24403 27632 661 ETI62671.1 24404 27633 119 EFL24973.1 24406 27635 677 EFL24976.1 24407 27636 120 AGA58895.1 24409 27638 486 AGA58893.1 24410 27639 121 EEY51338.1 24412 27641 397 EEY51339.1 24413 27642 556 EEY51340.1 24414 27643 629 EEY51341.1 24415 27644 122 AIL69849.1 24417 27646 397 AIL69850.1 24418 27647 556 AIL69851.1 24419 27648 629 AIL69852.1 24420 27649 123 CNL41774.1 24422 27651 404 CNL41795.1 24423 27652 465 CNL41824.1 24424 27653 627 CNL41849.1 24425 27654 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946 947 948 949 950 951 952 953 954 955 956 957 958 959 960 961 962 963 964 965 966 967 968 969 970 971 972 973 974 975 976 977 978 979 980 981 982 983 984 985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 (Part C) Y AC AG AK DruD DruE DruM DruF protein Z AA AB protein AD AE AF protein AH AI AJ protein AL AM length DruE PRT SEQ DNA SEQ length DruM PRT SEQ DNA SEQ length DruF PRT SEQ DNA SEQ length DruG PRT SEQ 1 (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: ID NO: (aa) protein_accession ID NO: 2 CEP95573.1 23937 27166 1753 3 363 KUO96134.1 23942 27171 1851 4 312 GAC90454.1 23946 27175 1784 5 358 KQT61311.1 23949 27178 1847 6 358 KQT62613.1 23952 27181 1847 7 316 KMN72584.1 23956 27185 1775 8 316 EJQ91446.1 23960 27189 1777 9 292 CRK83012.1 23964 27193 1752 10 333 KEF29417.1 23967 27196 1743 11 330 ETO96255.1 23970 27199 1747 12 360 ALK08977.1 23973 27202 1854 13 360 CUU41638.1 23976 27205 1854 14 260 KGC93324.1 23981 27210 1752 15 359 KGV75903.1 23984 27213 1856 16 EDO89777.1 23988 27217 1787 17 260 AJX60137.1 23993 27222 1752 18 AIP62511.1 23996 27225 1752 19 KVO65552.1 24000 27229 1752 20 KVO87082.1 24003 27232 1753 21 359 CDI04326.1 24006 27235 1842 22 351 KPA09466.1 24010 27239 1795 23 359 KHD06508.1 24013 27242 1796 24 350 KJH65674.1 24018 27247 1843 25 340 CDM70056.1 24022 27251 1761 26 352 KEI16343.1 24025 27254 1767 27 342 EGB92910.1 24029 27258 1738 28 339 ACL18697.1 24032 27261 1740 29 338 ACV64030.1 24035 27264 1741 30 341 AMC93639.1 24038 27267 1739 31 347 KHG78161.1 24043 27272 1836 32 347 KHI73839.1 24048 27277 1836 33 347 KHI66628.1 24051 27280 1836 34 347 KHI48868.1 24056 27285 1836 35 347 KHI24186.1 24060 27289 1836 36 347 KMV42880.1 24065 27294 1836 37 347 KQJ50743.1 24070 27299 1836 38 347 ALN47014.1 24075 27304 1836 39 347 KSY14480.1 24080 27309 1836 40 347 KXR68575.1 24085 27314 1836 41 347 KIO85003.1 24090 27319 1836 42 347 EQS48047.1 24095 27324 1836 43 347 EQO85270.1 24100 27329 1836 44 347 EQO74909.1 24105 27334 1836 45 347 EYT06142.1 24110 27339 1836 46 347 EQV41650.1 24115 27344 1836 47 347 ELC24072.1 24120 27349 1836 48 347 ELH39088.1 24125 27354 1836 49 347 EOV00815.1 24130 27359 1836 50 347 EOU57730.1 24135 27364 1836 51 347 ELE47062.1 24140 27369 1836 52 347 ELE76870.1 24145 27374 1836 53 347 EU64787.1 24150 27379 1836 54 347 EOV85621.1 24155 27384 1836 55 347 ELE86434.1 24160 27389 1836 56 347 EWY52042.1 24165 27394 1836 57 260 EFK51867.1 24170 27399 1836 58 260 EGU96603.1 24173 27402 1836 59 347 EMZ39753.1 24178 27407 1836 60 347 EGI33544.1 24182 27411 1836 61 347 EQX30248.1 24187 27416 1836 62 347 EQZ12281.1 24192 27421 1836 63 347 ERA40833.1 24197 27426 1836 64 338 CDA97614.1 24201 27430 1732 65 317 KFX30968.1 24205 27434 1786 66 317 KYD25146.1 24209 27438 1786 67 317 KLR73617.1 24212 27441 1786 68 317 ADU94759.1 24216 27445 1787 69 317 ACX76986.1 24220 27449 1787 70 317 KFL17493.1 24224 27453 1786 71 317 KFX35841.1 24228 27457 1786 72 365 EDQ34543.1 24231 27460 1848 73 360 KRB96439.1 24234 27463 1851 74 370 AGK57209.1 24237 27466 1846 75 342 KMV96846.1 24242 27471 1303 76 354 ESN04441.1 24246 27475 1846 77 351 ABX40975.1 24249 27478 1759 78 338 EOS72128.1 24253 27482 1728 79 EDM25763.1 24256 27485 1813 80 356 ESY17005.1 24259 27488 1853 81 346 KUK70365.1 24263 27492 1774 82 343 EHQ36505.1 24267 27496 1763 83 347 KKG83060.1 24271 27500 1775 84 362 EQM86810.1 24274 27503 1857 85 363 AU18570.1 24277 27506 1858 86 363 GAD34406.1 24280 27509 1858 87 360 ADJ29891.1 24283 27512 1849 88 308 KMP10707.1 24286 27515 1844 89 354 EGY00301.1 24289 27518 1849 90 349 EPY09172.1 24293 27522 1746 91 352 ACX63340.1 24297 27526 1759 92 347 KHN90282.1 24302 27531 1836 93 354 KGA32596.1 24305 27534 1848 94 339 AJQ25680.1 24309 27538 1735 95 352 CUH95395.1 24313 27542 1734 96 KSF97362.1 24317 27546 1840 97 346 KSL25394.1 24320 27549 1841 98 KSO15705.1 24324 27553 1840 99 353 BAR67381.2 24329 27558 1844 100 289 KAJ21864.1 24333 27562 1802 101 AGI81183.1 24336 27565 1844 102 343 ERY34408.1 24341 27570 1840 103 353 EZP23713.1 24346 27575 1844 104 345 ERV69459.1 24351 27580 1840 105 EQM83906.1 24355 27584 1840 106 344 AJP52376.1 24360 27589 1848 107 344 EST14434.1 24365 27594 1845 108 343 ENY74502.1 24370 27599 1840 109 353 KWR75282.1 24373 27602 1844 110 344 KFE46440.1 24378 27607 1851 111 371 AMP72545.1 24383 27612 1853 112 361 KQQ11278.1 24386 27615 1860 113 356 KQS82594.1 24389 27618 1849 114 356 KQS78957.1 24392 27621 1849 115 345 AKE89963.1 24395 27624 2149 116 347 EME23885.1 24398 27627 1805 117 364 CDZ88162.1 24402 27631 2149 118 355 ETI62662.1 24405 27634 1847 119 363 EFL24975.1 24408 27637 1860 120 332 AGA58892.1 24411 27640 1735 121 343 EEY51342.1 24416 27645 1831 122 304 AIL69853.1 24421 27650 1831 123 347 CNL41877.1 24426 27655 1835 124 CUI54792.1 24427 27656 1891 CUI54813.1 24428 27657 382 CUI54751.1 24429 27658 659 CUI54773.1 24430 125 KUL31266.1 24431 27660 1778 KUL31262.1 24432 27661 427 KUL31267.1 24433 27662 1018 126 AGL13716.1 24434 27663 1783 AGL13720.1 24435 27664 354 AGL13717.1 24436 27665 1021 127 EGP54151.1 24437 27666 1957 EGP54154.1 24438 27667 614 EGP54153.1 24439 27668 822 EGP54152.1 24440 128 ABW19397.1 24441 27670 1903 ABW19395.1 24442 27671 329 ABW19399.1 24443 27672 683 129 ALO16789.1 24444 27673 2026 ALO16791.1 24445 27674 390 ALO16788.1 24446 27675 948 130 EIG62888.1 24447 27676 1953 EIG62885.1 24448 27677 409 EIG62886.1 24449 27678 852 EIG62887.1 24450 131 ADL01345.1 24451 27680 1954 ADL01343.1 24452 27681 377 ADL01347.1 24453 27682 718 ADL01346.1 24454 132 EEE02134.1 24455 27684 1968 EEE02132.1 24456 27685 927 EEE02133.1 24457 133 KWF28731.1 24458 27687 1948 KWF28730.1 24459 27688 391 KWF28733.1 24460 27689 892 KWF28732.1 24461 134 KQR76945.1 24462 27691 1956 KQR76951.1 24463 27692 382 KQR76943.1 24464 27693 844 KQR76944.1 24465 135 KVO29147.1 24466 27695 1947 KVO29144.1 24467 27696 385 KVO29146.1 24468 136 KVP15001.1 24469 27698 1947 KVP14998.1 24470 27699 385 KVP15000.1 24471 137 KVU67372.1 24472 27701 1948 KVU67373.1 24473 27702 391 KVU67370.1 24474 27703 892 KVU67371.1 24475 138 KWH22082.1 24476 27705 1948 KWH22081.1 24477 27706 391 KWH22084.1 24478 27707 892 KWH22083.1 24479 139 KWO52778.1 24480 27709 1947 KWO52775.1 24481 27710 385 KWO52777.1 24482 140 KQY41878.1 24483 27712 1833 KQY41875.1 24484 27713 436 KQY41880.1 24485 27714 692 141 ABP36100.1 24486 27715 1887 ABP36104.1 24487 27716 467 ABP36098.1 24488 27717 581 142 KXH85115.1 24489 27718 2009 KXH85112.1 24490 27719 377 KXH85116.1 24491 27720 948 143 ALD78636.1 24492 27721 1982 ALD78633.1 24493 27722 361 ALD78634.1 24494 27723 921 ALD78635.1 24495 144 EEH92508.2 24496 27725 1947 EEH92511.1 24497 27726 411 EEH92510.1 24498 27727 854 EEH92509.2 24499 145 GAL44508.1 24500 27729 1946 GAL44505.1 24501 27730 395 GAL44506.1 24502 27731 852 GAL44507.1 24503 146 KUO74508.1 24504 27733 1914 KUO74511.1 24505 27734 378 KUO74506.1 24506 27735 675 147 AMP07507.1 24507 27736 1971 AMP07506.1 24508 27737 379 AMP07509.1 24509 27738 860 AMP07508.1 24510 148 AIF40724.1 24511 27740 1809 AIF40718.1 24512 27741 331 AIF40722.1 24513 27742 683 149 ACT06326.1 24514 27743 1948 ACT06329.1 24515 27744 411 ACT06328.1 24516 27745 853 ACT06327.1 24517 150 KLF19647.1 24518 27747 1982 KLF19650.1 24519 27748 361 KLF19649.1 24520 27749 921 KLF19648.1 24521 151 KUQ16675.1 24522 27751 1982 KUQ16672.1 24523 27752 361 KUQ16673.1 24524 27753 921 KUQ16674.1 24525 152 KUR17280.1 24526 27755 1982 KUR17283.1 24527 27756 361 KUR17282.1 24528 27757 921 KUR17281.1 24529 153 KLG20346.1 24530 27759 1980 KLG20343.1 24531 27760 361 KLG20345.1 24532 154 KJL89848.1 24533 27762 1998 KJL89845.1 24534 27763 361 KJL89846.1 24535 27764 925 KJL89847.1 24536 155 KJL84453.1 24537 27766 1998 KJL84456.1 24538 27767 361 KJL84455.1 24539 27768 925 KJL84454.1 24540 156 KJL75892.1 24541 27770 1998 KJL75889.1 24542 27771 361 KJL75890.1 24543 27772 925 KJL75891.1 24544 157 KJX56014.1 24545 27774 1998 KJX56011.1 24546 27775 361 KJX56012.1 24547 27776 925 KJX56013.1 24548 158 KJX41325.1 24549 27778 1998 KJX41322.1 24550 27779 361 KJX41323.1 24551 27780 925 KJX41324.1 24552 159 KJX62526.1 24553 27782 1998 KJX62523.1 24554 27783 361 KJX62524.1 24555 27784 925 KJX62525.1 24556 160 KJX64332.1 24557 27786 1998 KJX64329.1 24558 27787 361 KJX64330.1 24559 27788 925 KJX64331.1 24560 161 KJW84168.1 24561 27790 1998 KJW84165.1 24562 27791 361 KJW84166.1 24563 27792 925 KJW84167.1 24564 162 KJX04040.1 24565 27794 1998 KJX04037.1 24566 27795 361 KJX04038.1 24567 27796 925 KJX04039.1 24568 163 KJW83867.1 24569 27798 1998 KJW83864.1 24570 27799 361 KJW83865.1 24571 27800 925 KJW83866.1 24572 164 KJX49731.1 24573 27802 1998 KJX49728.1 24574 27803 361 KJX49729.1 24575 27804 925 KJX49730.1 24576 165 KKA32833.1 24577 27806 1998 KKA32830.1 24578 27807 361 KKA32831.1 24579 27808 925 KKA32832.1 24580 166 AFM58287.1 24581 27810 1945 AFM58284.1 24582 27811 411 AFM58285.1 24583 27812 850 AFM58286.1 24584 167 KTJ18639.1 24585 27814 1998 KTJ18636.1 24586 27815 361 KTJ18637.1 24587 27816 925 KTJ18638.1 24588 168 KTH34056.1 24589 27818 1998 KTH34053.1 24590 27819 361 KTH34054.1 24591 27820 925 KTH34055.1 24592 169 EWG70005.1 24593 27822 1982 EWG70008.1 24594 27823 361 EWG70007.1 24595 27824 921 EWG70006.1 24596 170 BAH40614.1 24597 27826 2009 BAH40611.1 24598 27827 407 BAH40612.1 24599 27828 983 BAH40613.1 24600 171 GAB92720.1 24601 27830 1755 GAB92713.1 24602 27831 422 GAB92719.1 24603 27832 1025 172 KOP23146.1 24604 27833 1766 KOP23135.1 24605 27834 388 KOP23134.1 24606 27835 689 173 EWE15861.1 24607 27836 1946 EWE15858.1 24608 27837 381 EWE15859.1 24609 27838 854 EWE15860.1 24610 174 CDI15591.1 24611 27840 1998 CDI15594.1 24612 27841 361 CDI15593.1 24613 27842 925 CDI15592.1 24614 175 EAW41505.1 24615 27844 2067 EAW41501.1 24616 27845 463 EAW41506.1 24617 27846 1000 176 KQQ96139.1 24618 27847 1983 KQQ96136.1 24619 27848 363 KQQ96141.1 24620 27849 940 KQQ96140.1 24621 177 AKB67566.1 24622 27851 2047 AKB67569.1 24623 27852 489 AKB67568.1 24624 27853 697 178 AIQ93138.1 24625 27854 1960 AIQ93137.1 24626 27855 340 AIQ93140.1 24627 27856 925 AIQ93139.1 24628 179 AMB47692.1 24629 27858 1963 AMB47695.1 24630 27859 315 AMB47694.1 24631 27860 851 AMB47693.1 24632 180 KIP90348.1 24633 27862 1813 KIP90388.1 24634 27863 331 KIP90346.1 24635 27864 683 181 EWM65738.1 24636 27865 1812 EWM65736.1 24637 27866 392 EWM65739.1 24638 27867 1027 182 CCH89535.1 24639 27868 1805 CCH89539.1 24640 27869 355 CCH89533.1 24641 27870 668 183 EMP50968.1 24642 27871 1945 EMP50971.1 24643 27872 411 EMP50970.1 24644 27873 852 EMP50969.1 24645 184 GAS97121.1 24646 27875 1827 GAS97126.1 24647 27876 329 GAS97123.1 24648 27877 703 185 ALI28820.1 24649 27878 1753 ALI28823.1 24650 27879 431 ALI28821.1 24651 27880 1085 186 AKS35859.1 24652 27881 1753 AKS36815.1 24653 27882 431 AKS35860.1 24654 27883 1031 187 GAT08462.1 24655 27884 1822 GAT08465.1 24656 27885 326 GAT08464.1 24657 27886 702 188 ACV78352.1 24658 27887 1780 ACV78350.1 24659 27888 467 ACV78351.1 24660 27889 1002 189 KJV46415.1 24661 27890 1946 KJV46418.1 24662 27891 411 KJV46417.1 24663 27892 852 KJV46416.1 24664 190 KRW97754.1 24665 27894 1953 KRW97756.1 24666 27895 603 KRW97755.1 24667 191 KHT34503.1 24668 27897 1986 KHT34506.1 24669 27898 361 KHT34505.1 24670 27899 927 KHT34504.1 24671 192 AFR03569.1 24672 27901 1980 AFR03572.1 24673 27902 361 AFR03571.1 24674 27903 921 AFR03570.1 24675 193 AKJ41264.1 24676 27905 1983 AKJ41261.1 24677 27906 361 AKJ41262.1 24678 27907 932 AKJ41263.1 24679 194 BAP50995.1 24680 27909 1946 BAP50997.1 24681 27910 850 BAP50996.1 24682 195 BAP23387.1 24683 27912 1946 BAP23389.1 24684 27913 850 BAP23388.1 24685 196 KSE43346.1 24686 27915 1946 KSE43345.1 24687 27916 850 KSE43344.1 24688 197 KSE74811.1 24689 27918 1946 KSE74753.1 24690 27919 850 KSE74754.1 24691 198 KSH20463.1 24692 27921 1946 KSH20466.1 24693 27922 394 KSH20465.1 24694 27923 850 KSH20464.1 24695 199 KSD81170.1 24696 27925 1946 KSD81167.1 24697 27926 394 KSD81166.1 24698 27927 850 KSD81165.1 24699 200 KSD90962.1 24700 27929 1946 KSD90904.1 24701 27930 850 KSD90905.1 24702 201 KSH64632.1 24703 27932 1946 KSH64629.1 24704 27933 394 KSH64628.1 24705 27934 850 KSH64627.1 24706 202 KSH80104.1 24707 27936 1946 KSH80101.1 24708 27937 394 KSH80100.1 24709 27938 850 KSH80099.1 24710 203 KSJ28920.1 24711 27940 1946 KSJ28917.1 24712 27941 394 KSJ28916.1 24713 27942 850 KSJ28915.1 24714 204 KSK06443.1 24715 27944 1946 KSK06442.1 24716 27945 394 KSK06441.1 24717 27946 850 KSK06440.1 24718 205 KSJ60779.1 24719 27948 1946 KSJ60711.1 24720 27949 394 KSJ60712.1 24721 27950 850 KSJ60713.1 24722 206 KSK54149.1 24723 27952 1946 KSK54146.1 24724 27953 394 KSK54145.1 24725 27954 850 KSK54144.1 24726 207 KSK39571.1 24727 27956 1946 KSK39566.1 24728 27957 394 KSK39565.1 24729 27958 850 KSK39564.1 24730 208 KSL10852.1 24731 27960 1946 KSL10784.1 24732 27961 394 KSL10785.1 24733 27962 850 KSL10786.1 24734 209 KSL65229.1 24735 27964 1946 KSL65226.1 24736 27965 394 KSL65225.1 24737 27966 850 KSL65224.1 24738 210 KSL37891.1 24739 27968 1946 KSL37823.1 24740 27969 394 KSL37824.1 24741 27970 850 KSL37825.1 24742 211 KSM35820.1 24743 27972 1946 KSM35817.1 24744 27973 394 KSM35816.1 24745 27974 850 KSM35815.1 24746 212 KSM77524.1 24747 27976 1956 KSM77522.1 24748 27977 846 KSM77523.1 24749 213 KSO31601.1 24750 27979 1946 KSO31533.1 24751 27980 394 KSO31534.1 24752 27981 850 KSO31535.1 24753 214 KSO28498.1 24754 27983 1946 KSO28430.1 24755 27984 394 KSO28431.1 24756 27985 850 KSO28432.1 24757 215 KSL52322.1 24758 27987 1946 KSL52254.1 24759 27988 394 KSL52255.1 24760 27989 850 KSL52256.1 24761 216 KSL73599.1 24762 27991 1946 KSL73596.1 24763 27992 394 KSL73595.1 24764 27993 850 KSL73594.1 24765 217 KSL62790.1 24766 27995 1956 KSL62788.1 24767 27996 846 KSL62789.1 24768 218 KSM90742.1 24769 27998 1946 KSM90740.1 24770 27999 394 KSM90739.1 24771 28000 850 KSM90738.1 24772 219 KSN64557.1 24773 28002 1946 KSN64554.1 24774 28003 394 KSN64553.1 24775 28004 850 KSN64552.1 24776 220 KSO10606.1 24777 28006 1946 KSO10538.1 24778 28007 394 KSO10539.1 24779 28008 850 KSO10540.1 24780 221 KSR13053.1 24781 28010 1946 KSR12985.1 24782 28011 394 KSR12986.1 24783 28012 850 KSR12987.1 24784 222 KSR82354.1 24785 28014 1946 KSR82286.1 24786 28015 394 KSR82287.1 24787 28016 850 KSR82288.1 24788 223 KSQ84593.1 24789 28018 1946 KSQ84590.1 24790 28019 394 KSQ84589.1 24791 28020 850 KSQ84588.1 24792 224 EFQ41826.1 24793 28022 1946 EFQ41828.1 24794 28023 850 EFQ41827.1 24795 225 ERX42740.1 24796 28025 1946 ERX42743.1 24797 28026 379 ERX42742.1 24798 28027 850 ERX42741.1 24799 226 ERV57398.1 24800 28029 1946 ERV57401.1 24801 28030 379 ERV57400.1 24802 28031 850 ERV57399.1 24803 227 ERV46141.1 24804 28033 1946 ERV46144.1 24805 28034 379 ERV46143.1 24806 28035 850 ERV46142.1 24807 228 ERV15095.1 24808 28037 1946 ERV15098.1 24809 28038 379 ERV15097.1 24810 28039 850 ERV15096.1 24811 229 EZN68207.1 24812 28041 1946 EZN68210.1 24813 28042 379 EZN68209.1 24814 28043 850 EZN68208.1 24815 230 EZP10099.1 24816 28045 1956 EZP10096.1 24817 28046 384 EZP10097.1 24818 28047 876 EZP10098.1 24819 231 ERW79837.1 24820 28049 1946 ERW79840.1 24821 28050 379 ERW79839.1 24822 28051 850 ERW79838.1 24823 232 ERU64537.1 24824 28053 1942 ERU64534.1 24825 28054 398 ERU64535.1 24826 28055 839 ERU64536.1 24827 233 ERZ11046.1 24828 28057 1946 ERZ11049.1 24829 28058 379 ERZ11048.1 24830 28059 850 ERZ11047.1 24831 234 CDH77378.1 24832 28061 1946 CDH77380.1 24833 28062 511 CDH77379.1 24834 235 BAK90082.1 24835 28064 1946 BAK90080.1 24836 28065 850 BAK90081.1 24837 236 ERX37642.1 24838 28067 1946 ERX37645.1 24839 28068 379 ERX37644.1 24840 28069 850 ERX37643.1 24841 237 CDM51955.1 24842 28071 1946 CDM51958.1 24843 28072 379 CDM51957.1 24844 28073 850 CDM51956.1 24845 238 AAY92286.1 24846 28075 1948 AAY96277.1 24847 28076 394 AAY92284.1 24848 28077 851 AAY92285.1 24849 239 ELP96357.1 24850 28079 1945 ELP96354.1 24851 28080 399 ELP96355.1 24852 28081 838 ELP96356.1 24853 240 ELQ02809.1 24854 28083 1945 ELQ02806.1 24855 28084 399 ELQ02807.1 24856 28085 838 ELQ02808.1 24857 241 KGK94204.1 24858 28087 1957 KGK94314.1 24859 28088 406 KGK94207.1 24860 28089 847 KGK94205.1 24861 242 KUR43160.1 24862 28091 1957 KUR43163.1 24863 28092 384 KUR43162.1 24864 28093 847 KUR43161.1 24865 243 KUR49796.1 24866 28095 1957 KUR49793.1 24867 28096 384 KUR49794.1 24868 28097 847 KUR49795.1 24869 244 EEB59176.1 24870 28099 1957 EEB59179.1 24871 28100 406 EEB59178.1 24872 28101 847 EEB59177.1 24873 245 ERL54332.1 24874 28103 1930 ERL54330.1 24875 28104 845 ERL54331.1 24876 246 KPH05039.1 24877 28106 1961 KPH05036.1 24878 28107 353 KPH05037.1 24879 28108 854 KPH05038.1 24880 247 KQS76378.1 24881 28110 1626 KQS76380.1 24882 28111 853 KQS76379.1 24883 248 KUJ85953.1 24884 28113 1804 KUJ86243.1 24885 28114 472 KUJ85952.1 24886 28115 1026 249 KTM77905.1 24887 28116 1980 KTM77908.1 24888 28117 361 KTM77907.1 24889 28118 921 KTM77906.1 24890 250 GAR19711.1 24891 28120 1945 GAR19708.1 24892 28121 395 GAR19709.1 24893 28122 852 GAR19710.1 24894 251 GAR29094.1 24895 28124 1945 GAR29097.1 24896 28125 395 GAR29096.1 24897 28126 852 GAR29095.1 24898 252 GAR48964.1 24899 28128 1945 GAR48967.1 24900 28129 395 GAR48966.1 24901 28130 852 GAR48965.1 24902 253 GAR51851.1 24903 28132 1980 GAR51848.1 24904 28133 361 GAR51849.1 24905 28134 921 GAR51850.1 24906 254 GAR68135.1 24907 28136 1945 GAR68138.1 24908 28137 395 GAR68137.1 24909 28138 852 GAR68136.1 24910 255 GAR79837.1 24911 28140 1945 GAR79834.1 24912 28141 395 GAR79835.1 24913 28142 852 GAR79836.1 24914 256 GAS04635.1 24915 28144 1945 GAS04638.1 24916 28145 395 GAS04637.1 24917 28146 852 GAS04636.1 24918 257 GAS14633.1 24919 28148 1945 GAS14636.1 24920 28149 395 GAS14635.1 24921 28150 852 GAS14634.1 24922 258 GAS22419.1 24923 28152 1945 GAS22416.1 24924 28153 395 GAS22417.1 24925 28154 852 GAS22418.1 24926 259 GAS34224.1 24927 28156 1945 GAS34221.1 24928 28157 395 GAS34222.1 24929 28158 852 GAS34223.1 24930 260 GAS44702.1 24931 28160 1945 GAS44699.1 24932 28161 395 GAS44700.1 24933 28162 852 GAS44701.1 24934 261 KSB75754.1 24935 28164 1945 KSB75751.1 24936 28165 411 KSB75752.1 24937 28166 849 KSB75753.1 24938 262 AIP97316.1 24939 28168 1945 AIP94652.1 24940 28169 411 AIP97314.1 24941 28170 849 AIP97315.1 24942 263 KFS83334.1 24943 28172 1980 KFS83337.1 24944 28173 361 KFS83336.1 24945 28174 921 KFS83335.1 24946 264 KFS82350.1 24947 28176 1980 KFS82348.1 24948 28177 617 KFS82349.1 24949 265 KFS54100.1 24950 28179 1980 KFS54103.1 24951 28180 361 KFS54102.1 24952 28181 921 KFS54101.1 24953 266 ETA85463.1 24954 28183 1946 ETA85466.1 24955 28184 411 ETA85465.1 24956 28185 852 ETA85464.1 24957 267 AGQ75543.1 24958 28187 1946 AGQ73595.1 24959 28188 395 AGQ75541.1 24960 28189 852 AGQ75542.1 24961 268 ESV53477.1 24962 28191 1946 ESV53381.1 24963 28192 395 ESV53475.1 24964 28193 852 ESV53476.1 24965 269 ESJ68059.1 24966 28195 1980 ESJ68062.1 24967 28196 361 ESJ68061.1 24968 28197 921 ESJ68060.1 24969 270 ESE97307.1 24970 28199 1980 ESE97310.1 24971 28200 361 ESE97309.1 24972 28201 921 ESE97308.1 24973 271 EDZ02526.1 24974 28203 1980 EDZ04146.1 24975 28204 361 EDZ04762.1 24976 272 ETO88599.1 24977 28206 1980 ETO88602.1 24978 28207 361 ETO88601.1 24979 28208 921 ETO88600.1 24980 273 CUS01271.1 24981 28210 1982 CUS01249.1 24982 28211 361 CUS01256.1 24983 28212 921 CUS01267.1 24984 274 CUR99590.1 24985 28214 1982 CUR99579.1 24986 28215 361 CUR99583.1 24987 28216 921 CUR99587.1 24988 275 CUR99591.1 24989 28218 1982 CUR99580.1 24990 28219 361 CUR99582.1 24991 28220 921 CUR99586.1 24992 276 CUR99699.1 24993 28222 1982 CUR99684.1 24994 28223 361 CUR99689.1 24995 28224 921 CUR99695.1 24996 277 CBY98492.1 24997 28226 1982 CBY98489.1 24998 28227 361 CBY98490.1 24999 28228 921 CBY98491.1 25000 278 EDZ28883.1 25001 28230 1982 EDZ28906.1 25002 28231 361 EDZ28845.1 25003 28232 921 EDZ28831.1 25004 279 KHQ80350.1 25005 28234 1946 KHQ80347.1 25006 28235 411 KHQ80348.1 25007 28236 852 KHQ80349.1 25008 280 ESE86334.1 25009 28238 1946 ESE86332.1 25010 28239 411 ESE86333.1 25011 281 ETX40265.1 25012 28241 1947 ETX40262.1 25013 28242 411 ETX40263.1 25014 28243 852 ETX40264.1 25015 282 EZQ62320.1 25016 28245 1947 EZQ62323.1 25017 28246 411 EZQ62322.1 25018 28247 852 EZQ62321.1 25019 283 CAC47725.1 25020 28249 1832 CAC47727.1 25021 28250 440 CAC47726.1 25022 28251 997 284 AGG75744.1 25023 28252 1832 AGG75746.1 25024 28253 440 AGG75745.1 25025 28254 997 285 KSV87560.1 25026 28255 1961 KSV87563.1 25027 28256 383 KSV87562.1 25028 28257 854 KSV87561.1 25029 286 EJJ06042.1 25030 28259 1849 EJJ06043.1 25031 28260 405 EJJ06040.1 25032 28261 705 287 KND14004.1 25033 28262 1857 KND14010.1 25034 28263 405 KND14006.1 25035 28264 712 288 EGU44860.1 25036 28265 2093 EGU44862.1 25037 28266 528 EGU44859.1 25038 28267 1014 289 CNL16915.1 25039 28268 1981 CNL16836.1 25040 28269 362 CNL16872.1 25041 28270 928 CNL16894.1 25042 290 CNJ89349.1 25043 28272 1981 CNJ89455.1 25044 28273 362 CNJ89414.1 25045 28274 928 CNJ89387.1 25046 291 CNK54575.1 25047 28276 1982 CNK54663.1 25048 28277 376 CNK54635.1 25049 28278 927 CNK54608.1 25050 292 CNK94601.1 25051 28280 1981 CNK94669.1 25052 28281 362 CNK94646.1 25053 28282 928 CNK94618.1 25054 293 CNI43727.1 25055 28284 1982 CNI43814.1 25056 28285 376 CNI43794.1 25057 28286 927 CNI43767.1 25058 294 AJJ11891.1 25059 28288 1986 AJJ11355.1 25060 28289 362 AJJ10816.1 25061 28290 928 AJJ11516.1 25062 295 EEQ02997.1 25063 28292 1986 EEQ03000.1 25064 28293 362 EEQ02999.1 25065 28294 928 EEQ02998.1 25066 296 KXV70696.1 25067 28296 2166 297 AKQ30571.1 25069 28298 2105 298 KOP86148.1 25071 28300 2105 299 KRS04352.1 25073 28302 2105 300 KRS02342.1 25075 28304 2105 301 KRS03107.1 25077 28306 2105 302 KRR94714.1 25079 28308 2105 303 KRS09258.1 25081 28310 2105 304 EXE63524.1 25083 28312 2107 305 EXC47766.1 25085 28314 2099 306 ELW92979.1 25087 28316 2107 307 ENW35933.1 25089 28318 2105 308 ENW44602.1 25091 28320 2105 309 ENW49012.1 25093 28322 2098 310 EKP68370.1 25095 28324 2098 311 EKL42013.1 25097 28326 2105 312 ENV15228.1 25099 28328 2099 313 ENX21439.1 25101 28330 2105 314 ENV06099.1 25103 28332 2099 315 EDS03747.1 25105 28334 2047 316 AMN11450.1 25107 28336 2100 317 AFT94989.1 25109 28338 2100 318 EGF91079.1 25111 28340 2037 319 ESQ74519.1 25113 28342 2035 320 CAL94925.1 25115 28344 2109 321 AJE23874.1 25117 28346 1705 322 CUA18545.1 25119 28348 2048 323 CBW22536.1 25121 28350 2048 324 EYA28061.1 25123 28352 2046 325 EYA33839.1 25125 28354 2048 326 EXY44320.1 25127 28356 2048 327 EYB10318.1 25129 28358 2048 328 EXZ67979.1 25131 28360 2048 329 EXY49048.1 25133 28362 2048 330 EXY53777.1 25135 28364 2048 331 EDS16320.1 25137 28366 2047 332 KXT38969.1 25139 28368 2047 333 EGW44032.1 25141 28370 2053 334 EEA03717.1 25143 28372 2083 335 KVM07646.1 25145 28374 2080 336 KVM11423.1 25147 28376 2080 337 KVM41744.1 25149 28378 2080 338 KVU39940.1 25151 28380 2084 339 KVX50941.1 25153 28382 2080 340 CDH43330.1 25155 28384 2062 341 KPA18787.1 25157 28386 2057 342 AIY12566.1 25159 28388 1978 343 EYF08672.1 25161 28390 1820 344 KQM35753.1 25163 28392 1956 345 ALD78156.1 25165 28394 2108 346 KPR54498.1 25167 28396 2106 347 KLV49873.1 25169 28398 2162 348 KLV71165.1 25171 28400 2106 349 BAO81224.1 25173 28402 2099 350 ALB51925.1 25175 28404 2106 351 AGE87745.1 25177 28406 1380 352 KJR98717.1 25179 28408 2076 353 KLE94551.1 25181 28410 2106 354 KLF52638.1 25183 28412 2106 355 KLW28645.1 25185 28414 2106 356 KLW04619.1 25187 28416 2106 357 KLQ05990.1 25189 28418 2108 358 KJI56236.1 25191 28420 2108 359 KLP80553.1 25193 28422 2106 360 KLW09755.1 25195 28424 2106 361 KLW05113.1 25197 28426 2106 362 KUQ64543.1 25199 28428 2080 363 KUQ79081.1 25201 28430 2080 364 KPS33776.1 25203 28432 2106 365 ESL79957.1 25205 28434 2106 366 KLW78405.1 25207 28436 2106 367 KFC20758.1 25209 28438 1950 368 AKQ40859.1 25211 28440 1989 369 EDL49427.1 25213 28442 1988 370 KDM84272.1 25215 28444 2104 371 CDU40545.1 25217 28446 2114 372 KHJ28072.1 25219 28448 2114 373 KHI41602.1 25221 28450 2104 374 KHH60282.1 25223 28452 2114 375 KHH50418.1 25225 28454 2114 376 KHI22226.1 25227 28456 2104 377 KHH70907.1 25229 28458 2114 378 KIG29571.1 25231 28460 2104 379 AJE58952.1 25233 28462 2114 380 KIY28272.1 25235 28464 2104 381 KIZ09778.1 25237 28466 2104 382 KJJ46593.1 25239 28468 2104 383 KJW55354.1 25241 28470 2104 384 KJW51696.1 25243 28472 2104 385 KLG52811.1 25245 28474 2104 386 KLX28162.1 25247 28476 2114 387 KNF16836.1 25249 28478 2104 388 KNF20995.1 25251 28480 2104 389 KNF39640.1 25253 28482 2104 390 KNG40958.1 25255 28484 2104 391 KNZ99111.1 25257 28486 2114 392 KOZ12765.1 25259 28488 2104 393 KOZ62647.1 25261 28490 2104 394 KOZ92031.1 25263 28492 2104 395 KOZ11137.1 25265 28494 2104 396 KOZ14566.1 25267 28496 2104 397 KOZ32809.1 25269 28498 2104 398 KOZ23191.1 25271 28500 2104 399 KOZ33147.1 25273 28502 2104 400 KOZ37736.1 25275 28504 2104 401 KOZ50072.1 25277 28506 2104 402 KOZ47195.1 25279 28508 2104 403 KOZ49645.1 25281 28510 2104 404 KOZ66201.1 25283 28512 2104 405 KOZ69676.1 25285 28514 2104 406 KOZ74923.1 25287 28516 2104 407 KOZ84735.1 25289 28518 2104 408 KOZ80210.1 25291 28520 2104 409 KOZ97677.1 25293 28522 2104 410 CTS44204.1 25295 28524 2116 411 KPH47383.1 25297 28526 2104 412 KPH45899.1 25299 28528 2104 413 KPH35130.1 25301 28530 2104 414 KPH38257.1 25303 28532 2104 415 KPO74170.1 25305 28534 2104 416 KPP03700.1 25307 28536 2104 417 KPP08799.1 25309 28538 2104 418 KPP18124.1 25311 28540 2104 419 KPP23767.1 25313 28542 2104 420 KPP34281.1 25315 28544 2104 421 KPP38851.1 25317 28546 2104 422 KPP49039.1 25319 28548 2104 423 KPP10067.1 25321 28550 2104 424 KPP41789.1 25323 28552 2104 425 KPP53630.1 25325 28554 2104 426 KUH02052.1 25327 28556 2104 427 KUH15976.1 25329 28558 2114 428 KUR31930.1 25331 28560 2114 429 ALZ66920.1 25333 28562 2114 430 KUT20744.1 25335 28564 2114 431 KUT66046.1 25337 28566 2114 432 KUS25060.1 25339 28568 2114 433 KUS40192.1 25341 28570 2104 434 KUT25847.1 25343 28572 2104 435 KUT18408.1 25345 28574 2104 436 KUU15347.1 25347 28576 2114 437 KUT50287.1 25349 28578 2104 438 KUX11783.1 25351 28580 2114 439 KUU59436.1 25353 28582 2114 440 KUU32865.1 25355 28584 2104 441 KUU24011.1 25357 28586 2104 442 KUV87992.1 25359 28588 2104 443 KUW19154.1 25361 28590 2104 444 KUW69105.1 25363 28592 2104 445 KUW47130.1 25365 28594 2104 446 KUT58081.1 25367 28596 2114 447 KUX52751.1 25369 28598 2114 448 KUX36550.1 25371 28600 2114 449 AMG80375.1 25373 28602 2104 450 KXG88717.1 25375 28604 2090 451 KXK90271.1 25377 28606 2104 452 KXP75339.1 25379 28608 2104 453 KXP56977.1 25381 28610 2114 454 KXP32136.1 25383 28612 2114 455 KXP24174.1 25385 28614 2114 456 KXR08922.1 25387 28616 2114 457 KXR32560.1 25389 28618 2114 458 KXR26310.1 25391 28620 2114 459 KXR92242.1 25393 28622 2114 460 KXR64178.1 25395 28624 2114 461 KXR53387.1 25397 28626 2114 462 EKJ54998.1 25399 28628 2104 463 ERC53519.1 25401 28630 2104 464 ERE00883.1 25403 28632 2104 465 ERE21799.1 25405 28634 2104 466 ERB68143.1 25407 28636 2104 467 ELV15311.1 25409 28638 2104 468 EKK91185.1 25411 28640 2104 469 EKK67942.1 25413 28642 2104 470 EKK62293.1 25415 28644 2104 471 EYE30769.1 25417 28646 2104 472 EYE15511.1 25419 28648 2104 473 EYE15598.1 25421 28650 2104 474 ESA76409.1 25423 28652 2090 475 EZJ86908.1 25425 28654 2104 476 KEO21429.1 25427 28656 2104 477 KDA70980.1 25429 28658 2104 478 KDS94627.1 25431 28660 2114 479 KDT14053.1 25433 28662 2114 480 KEN70536.1 25435 28664 2114 481 KDV77036.1 25437 28666 2114 482 KDW27005.1 25439 28668 2114 483 KEN84157.1 25441 28670 2114 484 KEO02789.1 25443 28672 2114 485 KDX84120.1 25445 28674 2114 486 KEJ20443.1 25447 28676 2071 487 KEJ21099.1 25449 28678 2104 488 EMX91855.1 25451 28680 2657 489 EMW69586.1 25453 28682 2114 490 EMW64104.1 25455 28684 2114 491 EMW45432.1 25457 28686 2114 492 EMV86399.1 25459 28688 2114 493 ENA88227.1 25461 28690 2114 494 ENB03534.1 25463 28692 2090 495 ERD09266.1 25465 28694 2104 496 EKK37396.1 25467 28696 2104 497 ELW28319.1 25469 28698 2104 498 KDT83303.1 25471 28700 2104 499 KEK80770.1 25473 28702 2104 500 KEL07348.1 25475 28704 2104 501 KEK94607.1 25477 28706 2104 502 EKK37001.1 25479 28708 2104 503 EKI06062.1 25481 28710 2104 504 EIL64995.1 25483 28712 2114 505 EKI02734.1 25485 28714 2104 506 KEL97939.1 25487 28716 2104 507 KEM08515.1 25489 28718 2104 508 KEM49607.1 25491 28720 2104 509 KEN01218.1 25493 28722 2114 510 KEM09157.1 25495 28724 2114 511 KEM25601.1 25497 28726 2114 512 KEM85724.1 25499 28728 2104 513 KEN65096.1 25501 28730 2104 514 ELW21807.1 25503 28732 2104 515 EKK71769.1 25505 28734 2104 516 EKK61091.1 25507 28736 2104 517 EKK52335.1 25509 28738 2104 518 EKK87669.1 25511 28740 2104 519 EKV85101.1 25513 28742 2104 520 EKV70655.1 25515 28744 2104 521 EKW05774.1 25517 28746 2104 522 EKW03229.1 25519 28748 2104 523 ESD10541.1 25521 28750 2104 524 ESA83483.1 25523 28752 2090 525 ESD19201.1 25525 28754 2090 526 ESD45641.1 25527 28756 2090 527 ESD61126.1 25529 28758 2090 528 ESD71191.1 25531 28760 2104 529 ESD92014.1 25533 28762 2090 530 ESD92684.1 25535 28764 2090 531 EKW04204.1 25537 28766 2104 532 EKW19026.1 25539 28768 2104 533 EIN33839.1 25541 28770 2104 534 EKW08489.1 25543 28772 2104 535 ELW29953.1 25545 28774 2104 536 EKW22423.1 25547 28776 2104 537 EKW74828.1 25549 28778 2104 538 EKY34593.1 25551 28780 2104 539 EKW38126.1 25553 28782 2104 540 EKW51346.1 25555 28784 2104 541 EKW70677.1 25557 28786 2104 542 EKW68015.1 25559 28788 2104 543 EKW71373.1 25561 28790 2104 544 EKY34710.1 25563 28792 2104 545 EKW75844.1 25565 28794 2104 546 ELW46373.1 25567 28796 2104 547 EKW96658.1 25569 28798 2104 548 EKW96262.1 25571 28800 2104 549 ELV31252.1 25573 28802 2104 550 ELV35525.1 25575 28804 2104 551 ELV44385.1 25577 28806 2104 552 ELW27709.1 25579 28808 2104 553 ELV47170.1 25581 28810 2104 554 ELW24264.1 25583 28812 2104 555 ELV62894.1 25585 28814 2104 556 ETJ70882.1 25587 28816 2104 557 ELV63261.1 25589 28818 2104 558 ACA79488.1 25591 28820 2104 559 ETJ79055.1 25593 28822 2104 560 ERB88976.1 25595 28824 2104 561 ERD08450.1 25597 28826 2104 562 ERD05022.1 25599 28828 2104 563 ERD20749.1 25601 28830 2104 564 ERD22952.1 25603 28832 2104 565 ERB79218.1 25605 28834 2104 566 ERD23993.1 25607 28836 2104 567 ERD35139.1 25609 28838 2104 568 ERD37186.1 25611 28840 2104 569 ERD26785.1 25613 28842 2104 570 ERD52932.1 25615 28844 2104 571 ERD40233.1 25617 28846 2104 572 ERD45130.1 25619 28848 2104 573 ERB91933.1 25621 28850 2104 574 ERC00105.1 25623 28852 2104 575 ERC08313.1 25625 28854 2104 576 ERC07683.1 25627 28856 2104 577 ERC15356.1 25629 28858 2104 578 ERC23447.1 25631 28860 2104 579 ERC10661.1 25633 28862 2104 580 ERC32307.1 25635 28864 2104 581 ERD72600.1 25637 28866 2104 582 ERD68378.1 25639 28868 2104 583 ERD73346.1 25641 28870 2104 584 ERD83190.1 25643 28872 2104 585 ERC25312.1 25645 28874 2104 586 ERC30062.1 25647 28876 2104 587 ERD87992.1 25649 28878 2104 588 ERD91778.1 25651 28880 2104 589 ERD98685.1 25653 28882 2104 590 ERD88430.1 25655 28884 2104 591 ERE36113.1 25657 28886 2104 592 ERE23642.1 25659 28888 2104 593 ERC33936.1 25661 28890 2104 594 ERC40343.1 25663 28892 2104 595 ERC48260.1 25665 28894 2104 596 ETY20411.1 25667 28896 2114 597 ETY13489.1 25669 28898 2114 598 ETY13648.1 25671 28900 2114 599 ETY08682.1 25673 28902 2114 600 ETX96687.1 25675 28904 2114 601 ERO99484.1 25677 28906 2114 602 ETY35402.1 25679 28908 2114 603 ETY29966.1 25681 28910 2114 604 ESL20614.1 25683 28912 2104 605 ETX82126.1 25685 28914 2114 606 ETX76976.1 25687 28916 2114 607 ETY61260.1 25689 28918 2114 608 EZQ66604.1 25691 28920 2114 609 ETY23955.1 25693 28922 2114 610 EKH96740.1 25695 28924 2104 611 CDU33063.1 25697 28926 2114 612 EHV18501.1 25699 28928 2104 613 EIP71495.1 25701 28930 2104 614 EKI46661.1 25703 28932 2104 615 EKI57136.1 25705 28934 2104 616 EKI59126.1 25707 28936 2104 617 EIP63563.1 25709 28938 2104 618 EIP72315.1 25711 28940 2104 619 EKI64841.1 25713 28942 2104 620 EKI72765.1 25715 28944 2104 621 EKI91872.1 25717 28946 2104 622 EKI82677.1 25719 28948 2104 623 EKJ05431.1 25721 28950 2104 624 EKI92955.1 25723 28952 2104 625 EKJ00854.1 25725 28954 2104 626 EIP72928.1 25727 28956 2104 627 EKJ19827.1 25729 28958 2104 628 EKJ20864.1 25731 28960 2104 629 EKJ36038.1 25733 28962 2104 630 EKJ47665.1 25735 28964 2104 631 EKJ36501.1 25737 28966 2104 632 EIP38855.1 25739 28968 2104 633 EIO92486.1 25741 28970 2104 634 EIO87517.1 25743 28972 2104 635 EIP27283.1 25745 28974 2104 636 EIP10343.1 25747 28976 2104 637 EIP33944.1 25749 28978 2104 638 EIP40257.1 25751 28980 2104 639 EIP48993.1 25753 28982 2104 640 EIP35357.1 25755 28984 2104 641 EIP50032.1 25757 28986 2104 642 EKI03043.1 25759 28988 2104 643 EST65289.1 25761 28990 2114 644 EMX76370.1 25763 28992 1715 645 EMX78116.1 25765 28994 1715 646 EKH36317.1 25767 28996 2104 647 EIN15911.1 25769 28998 2104 648 EKH25288.1 25771 29000 2104 649 EKH13354.1 25773 29002 2104 650 EIN16634.1 25775 29004 2104 651 EIN33026.1 25777 29006 2104 652 EKH48832.1 25779 29008 2104 653 EKJ48076.1 25781 29010 2104 654 EFI22364.1 25783 29012 2114 655 EFF02931.1 25785 29014 2114 656 EQN36980.1 25787 29016 2114 657 EQQ54038.1 25789 29018 2114 658 EQQ62151.1 25791 29020 1302 659 EQQ82445.1 25793 29022 2114 660 EQR15650.1 25795 29024 2114 661 EQR29834.1 25797 29026 2114 662 EQR56342.1 25799 29028 2114 663 EQR70531.1 25801 29030 2114 664 EQR73388.1 25803 29032 2114 665 ESP12228.1 25805 29034 2104 666 EQR98265.1 25807 29036 2114 667 EQS19620.1 25809 29038 2114 668 EQS44554.1 25811 29040 2114 669 EQS43788.1 25813 29042 2114 670 ERA63201.1 25815 29044 2114 671 EQS73534.1 25817 29046 2114 672 EQS83533.1 25819 29048 2114 673 EQT06519.1 25821 29050 2114 674 EQT31741.1 25823 29052 2104 675 EQT33091.1 25825 29054 2114 676 EQT84560.1 25827 29056 2104 677 EQU07296.1 25829 29058 2114 678 EQU46108.1 25831 29060 2114 679 EQU56271.1 25833 29062 2114 680 EQU82066.1 25835 29064 2114 681 EQN74806.1 25837 29066 2114 682 EQV15999.1 25839 29068 2114 683 EQO01912.1 25841 29070 2114 684 EQO57394.1 25843 29072 2104 685 EQO66405.1 25845 29074 2104 686 EQO74550.1 25847 29076 2114 687 EQP20054.1 25849 29078 2114 688 EQP30926.1 25851 29080 2114 689 EQP87867.1 25853 29082 2114 690 EQV39985.1 25855 29084 2114 691 EQV77954.1 25857 29086 2114 692 EQV75318.1 25859 29088 2114 693 EQV93985.1 25861 29090 2114 694 EOX00083.1 25863 29092 2114 695 EOW11795.1 25865 29094 2114 696 ELF04268.1 25867 29096 2114 697 ELI36532.1 25869 29098 2114 698 ELI49202.1 25871 29100 2104 699 EOW43092.1 25873 29102 2114 700 ELI49522.1 25875 29104 2114 701 EOW53696.1 25877 29106 2114 702 EOW53661.1 25879 29108 2114 703 EOW60866.1 25881 29110 2114 704 ELG97963.1 25883 29112 2114 705 ELH03274.1 25885 29114 2114 706 ELF28434.1 25887 29116 2104 707 EU30967.1 25889 29118 2114 708 EOW72675.1 25891 29120 2114 709 ELC68673.1 25893 29122 2114 710 ELC04770.1 25895 29124 2114 711 EOV27243.1 25897 29126 2114 712 ELH63192.1 25899 29128 2104 713 ELD00702.1 25901 29130 2114 714 ELD16727.1 25903 29132 2114 715 EOV39942.1 25905 29134 2114 716 EOX13560.1 25907 29136 2114 717 ELD74209.1 25909 29138 2114 718 ELC51202.1 25911 29140 2114 719 ELC65367.1 25913 29142 2114 720 ELG08157.1 25915 29144 2104 721 ELE06192.1 25917 29146 1584 722 ELE13901.1 25919 29148 2114 723 EOV54810.1 25921 29150 2114 724 ELE75378.1 25923 29152 2114 725 ELJ61315.1 25925 29154 2114 726 ELE76412.1 25927 29156 2114 727 EGI23327.1 25929 29158 2114 728 EIF87148.1 25931 29160 2104 729 KDG67767.1 25933 29162 2114 730 EFK89793.1 25935 29164 2090 731 EFK27050.1 25937 29166 2104 732 EFI89547.1 25939 29168 2114 733 EFJ73000.1 25941 29170 2090 734 EKH61308.1 25943 29172 2104 735 EKJ53063.1 25945 29174 2104 736 EMS03602.1 25947 29176 2104 737 KDM81021.1 25949 29178 2104 738 AHY73976.1 25951 29180 2104 739 AHG12157.1 25953 29182 2104 740 EYZ76662.1 25955 29184 2104 741 EYW98552.1 25957 29186 2104 742 EYV59037.1 25959 29188 2104 743 EZE90567.1 25961 29190 2104 744 EYV46017.1 25963 29192 2104 745 EYV44258.1 25965 29194 2104 746 EYV24875.1 25967 29196 2104 747 EYV22943.1 25969 29198 2104 748 EYV18168.1 25971 29200 2104 749 EYV20078.1 25973 29202 2104 750 EYV16484.1 25975 29204 2104 751 EYZ14529.1 25977 29206 2104 752 EZQ47394.1 25979 29208 2104 753 EZQ50282.1 25981 29210 2104 754 EFX13464.1 25983 29212 2104 755 EFX18241.1 25985 29214 2104 756 KKF77973.1 25987 29216 2104 757 KKF80397.1 25989 29218 2104 758 KKY44751.1 25991 29220 2104 759 ALH93595.1 25993 29222 2104 760 KRQ04755.1 25995 29224 2104 761 EYZ52258.1 25997 29226 2104 762 EYZ38307.1 25999 29228 2104 763 EYZ37416.1 26001 29230 2104 764 EYZ36217.1 26003 29232 2104 765 EYX13628.1 26005 29234 2104 766 EYX12327.1 26007 29236 2104 767 EYX02204.1 26009 29238 2104 768 EZD85330.1 26011 29240 2104 769 EZE88806.1 26013 29242 2104 770 EYV70456.1 26015 29244 2104 771 EZE89449.1 26017 29246 2104 772 EYV67648.1 26019 29248 2104 773 EYX70060.1 26021 29250 2104 774 EYX57443.1 26023 29252 2104 775 EYX54548.1 26025 29254 2104 776 EYX48134.1 26027 29256 2104 777 EYX44881.1 26029 29258 2104 778 EYX43993.1 26031 29260 2104 779 EYX33004.1 26033 29262 2104 780 EYX30696.1 26035 29264 2104 781 EYX27761.1 26037 29266 2104 782 EYW85332.1 26039 29268 2104 783 EYW83365.1 26041 29270 2104 784 EYW75521.1 26043 29272 2104 785 EYW71151.1 26045 29274 2104 786 EYW67179.1 26047 29276 2104 787 EYW64048.1 26049 29278 2104 788 EYW57176.1 26051 29280 2104 789 EYW49142.1 26053 29282 2104 790 EYW49455.1 26055 29284 2104 791 EYW43048.1 26057 29286 2104 792 EYW39162.1 26059 29288 2104 793 EYW34611.1 26061 29290 2104 794 EYW25812.1 26063 29292 2104 795 EYW27182.1 26065 29294 2104 796 EYW24511.1 26067 29296 2104 797 EYW09905.1 26069 29298 2104 798 EYW13502.1 26071 29300 2104 799 EZF08560.1 26073 29302 2104 800 EYW07433.1 26075 29304 2104 801 EZF05481.1 26077 29306 2104 802 EDZ87478.1 26079 29308 2104 803 EDZ81928.1 26081 29310 2104 804 EDU68725.1 26083 29312 2104 805 EDU54295.1 26085 29314 2104 806 ACI39430.1 26087 29316 2104 807 EDU34122.1 26089 29318 2104 808 EDZ76631.1 26091 29320 2104 809 EDU76303.1 26093 29322 2104 810 EDU82569.1 26095 29324 2104 811 EDU87409.1 26097 29326 2104 812 EDU98012.1 26099 29328 2104 813 AAG59484.1 26101 29330 2104 814 AIG71774.1 26103 29332 2104 815 EZA89751.1 26105 29334 2104 816 EZB05974.1 26107 29336 2104 817 EZB04403.1 26109 29338 2104 818 EZB11565.1 26111 29340 2104 819 EYV89285.1 26113 29342 2104 820 EZB20620.1 26115 29344 2104 821 EZB18143.1 26117 29346 2104 822 EZB30349.1 26119 29348 2104 823 EFX08675.1 26121 29350 2104 824 EZB32015.1 26123 29352 2104 825 EZB41524.1 26125 29354 2104 826 EZB46985.1 26127 29356 2104 827 EZB48638.1 26129 29358 2104 828 EZB48354.1 26131 29360 2104 829 EZB52648.1 26133 29362 2104 830 EZB74690.1 26135 29364 2104 831 EZB73674.1 26137 29366 2104 832 EZB87911.1 26139 29368 2104 833 EZB80135.1 26141 29370 2104 834 EZB81695.1 26143 29372 2104 835 EZB95442.1 26145 29374 2104 836 EZC17285.1 26147 29376 2104 837 EZC37645.1 26149 29378 2104 838 EZC28524.1 26151 29380 2104 839 EZC43983.1 26153 29382 2104 840 EZC48748.1 26155 29384 2104 841 EZC62955.1 26157 29386 2104 842 EZC70422.1 26159 29388 2104 843 EZC77662.1 26161 29390 2104 844 EZC64795.1 26163 29392 2104 845 EZC83414.1 26165 29394 2104 846 EZC90333.1 26167 29396 2104 847 EZC92771.1 26169 29398 2104 848 EZC86953.1 26171 29400 2104 849 EZD00267.1 26173 29402 2104 850 EYV84723.1 26175 29404 2104 851 EZD08968.1 26177 29406 2104 852 EZD17519.1 26179 29408 2104 853 EZD15757.1 26181 29410 2104 854 EZD19488.1 26183 29412 2104 855 EZD75269.1 26185 29414 2104 856 BAB38683.1 26187 29416 2104 857 AIF96934.1 26189 29418 2104 858 AJA29436.1 26191 29420 2104 859 ACT75064.1 26193 29422 2104 860 EEC30693.1 26195 29424 2104 861 EYZ63880.1 26197 29426 2104 862 EFX22734.1 26199 29428 2104 863 ADD59519.1 26201 29430 2104 864 ENC26729.1 26203 29432 2114 865 ENA10896.1 26205 29434 2114 866 EMZ79273.1 26207 29436 2114 867 ENG24753.1 26209 29438 2114 868 ENG35039.1 26211 29440 2114 869 ENG38631.1 26213 29442 2090 870 END33529.1 26215 29444 2090 871 ENE04446.1 26217 29446 2114 872 ENG47569.1 26219 29448 2090 873 ENG50954.1 26221 29450 2114 874 ENG56305.1 26223 29452 2114 875 ENG57264.1 26225 29454 2090 876 ENH40674.1 26227 29456 2090 877 ENG66730.1 26229 29458 2114 878 ENG74277.1 26231 29460 2114 879 EST67460.1 26233 29462 2104 880 EST67374.1 26235 29464 2104 881 EIN65416.1 26237 29466 2104 882 ELV75969.1 26239 29468 2104 883 ELV90964.1 26241 29470 2104 884 EIN69805.1 26243 29472 2104 885 EIN85485.1 26245 29474 2104 886 ELV76555.1 26247 29476 2104 887 ELV98807.1 26249 29478 2104 888 EIN94452.1 26251 29480 2104 889 EKH63851.1 26253 29482 2104 890 EIN88182.1 26255 29484 2104 891 EIN89808.1 26257 29486 2104 892 EIO09765.1 26259 29488 2104 893 EIN49114.1 26261 29490 2104 894 EIO07035.1 26263 29492 2104 895 EIO07406.1 26265 29494 2104 896 EIO11195.1 26267 29496 2104 897 EKH20919.1 26269 29498 2104 898 ELW23234.1 26271 29500 2104 899 EKI33366.1 26273 29502 2104 900 EIO24463.1 26275 29504 2104 901 EKH71757.1 26277 29506 2104 902 EIO49135.1 26279 29508 2104 903 EKH87903.1 26281 29510 2104 904 ELV91644.1 26283 29512 2104 905 ELV93152.1 26285 29514 2104 906 EKH83479.1 26287 29516 2104 907 EIN52368.1 26289 29518 2104 908 EKH07683.1 26291 29520 2104 909 ELW12426.1 26293 29522 2104 910 EIN68648.1 26295 29524 2104 911 ACB19214.1 26297 29526 2104 912 ERE14330.1 26299 29528 2104 913 ERC65825.1 26301 29530 2104 914 ERC74189.1 26303 29532 2104 915 ERC92370.1 26305 29534 2104 916 EGI28995.1 26307 29536 2104 917 EKH95568.1 26309 29538 2104 918 EIO46248.1 26311 29540 2104 919 EIO79506.1 26313 29542 2104 920 EIO65789.1 26315 29544 2106 921 EIO79103.1 26317 29546 2104 922 EIO63560.1 26319 29548 2104 923 EIO69660.1 26321 29550 2104 924 EIP05657.1 26323 29552 2104 925 EIP03388.1 26325 29554 2104 926 ERE42063.1 26327 29556 2104 927 ERE45411.1 26329 29558 2104 928 KDG81462.1 26331 29560 2114 929 KDG84325.1 26333 29562 2114 930 ERB08806.1 26335 29564 2104 931 ERB13350.1 26337 29566 2104 932 EQX93205.1 26339 29568 2114 933 EQY50266.1 26341 29570 2114 934 ERB23701.1 26343 29572 2114 935 EQY93867.1 26345 29574 2114 936 EQZ08532.1 26347 29576 2114 937 EQZ94053.1 26349 29578 2114 938 ERA40555.1 26351 29580 2114 939 CAR16064.1 26353 29582 2114 940 AFJ31995.1 26355 29584 2104 941 KWW01508.1 26357 29586 2113 942 CAQ90578.1 26359 29588 2113 943 EGC09238.1 26361 29590 2114 944 EOW71262.1 26363 29592 2114 945 AJY69764.1 26365 29594 2084 946 EDL62312.1 26367 29596 2084 947 EOD77322.1 26369 29598 2144 948 KJS14046.1 26371 29600 2046 949 EAQ32828.1 26373 29602 2099 950 KXS34467.1 26375 29604 2099 951 CDG80809.1 26377 29606 2106 952 KMK41965.1 26379 29608 2106 953 KMV95474.1 26381 29610 2108 954 EYT05883.1 26383 29612 2108 955 KGK50933.1 26385 29614 2106 956 KHE28071.1 26387 29616 2106 957 KHF57366.1 26389 29618 2106 958 KHQ22239.1 26391 29620 2106 959 KLZ78427.1 26393 29622 2106 960 KMB09547.1 26395 29624 2106 961 KMG65749.1 26397 29626 2108 962 KMG69376.1 26399 29628 2106 963 KMH23798.1 26401 29630 2106 964 KMH84528.1 26403 29632 2106 965 KMX40524.1 26405 29634 2106 966 ALH86088.1 26407 29636 2106 967 KRR31027.1 26409 29638 2108 968 ALQ84490.1 26411 29640 2106 969 ALQ89985.1 26413 29642 2106 970 KSX16169.1 26415 29644 2106 971 KSX18601.1 26417 29646 2106 972 KSX52402.1 26419 29648 2106 973 ALP76744.1 26421 29650 2106 974 KSZ32505.1 26423 29652 2106 975 KUF65064.1 26425 29654 2106 976 KUG47427.1 26427 29656 2106 977 KXO23872.1 26429 29658 2106 978 KYM26278.1 26431 29660 2106 979 ERN57701.1 26433 29662 2082 980 EWE85118.1 26435 29664 2106 981 ESL33173.1 26437 29666 2106 982 KDK59886.1 26439 29668 2106 983 CDK69438.1 26441 29670 2114 984 EMH91682.1 26443 29672 2106 985 EOZ63311.1 26445 29674 2082 986 EOY66995.1 26447 29676 2106 987 ESN46753.1 26449 29678 2108 988 EWF66266.1 26451 29680 2106 989 ESM58757.1 26453 29682 2106 990 KDL89512.1 26455 29684 2108 991 AIX83032.1 26457 29686 2106 992 AIG86151.1 26459 29688 2082 993 EKB81085.1 26461 29690 2106 994 ESM10101.1 26463 29692 2106 995 EPO98451.1 26465 29694 2106 996 EPA89958.1 26467 29696 2106 997 EJI89219.1 26469 29698 2103 998 KDE37040.1 26471 29700 2103 999 CAH16734.1 26473 29702 2106 1000 KTD65146.1 26475 29704 2108 1001 ETX11506.1 26477 29706 2097 1002 ESY80708.1 26479 29708 2007 1003 ESY66205.1 26481 29710 2034 1004 ESY44731.1 26483 29712 2037 1005 KQU80074.1 26485 29714 2042 1006 EMS40059.1 26487 29716 2080 1007 EMS40205.1 26489 29718 2080 1008 KQQ15550.1 26491 29720 2079 1009 KQO59081.1 26493 29722 2002 1010 KQO90918.1 26495 29724 2035 1011 EFV81023.1 26497 29726 1694 1012 EHJ60591.1 26499 29728 1959 1013 AIT79632.1 26501 29730 1987 1014 CCA92392.1 26503 29732 1985 1015 KTS15500.1 26505 29734 2108 1016 KTS86096.1 26507 29736 2108 1017 EFM21232.1 26509 29738 2109 1018 KGA41246.1 26511 29740 2104 1019 ACX87465.1 26513 29742 2104 1020 EAU47586.1 26515 29744 2003 1021 EAS45763.1 26517 29746 2065 1022 KJM66695.1 26519 29748 2105 1023 KMK11833.1 26521 29750 2105 1024 KMK24779.1 26523 29752 2105 1025 KXU56724.1 26525 29754 2024 1026 EGW47202.1 26527 29756 2027 1027 KSX98964.1 26529 29758 2094 1028 KTF11893.1 26531 29760 2100 1029 KGB84628.1 26533 29762 2102 1030 KHE32029.1 26535 29764 2071 1031 KQJ75582.1 26537 29766 2111 1032 KRV15964.1 26539 29768 2071 1033 KSD09758.1 26541 29770 2111 1034 KSD19533.1 26543 29772 2071 1035 KSG03215.1 26545 29774 2071 1036 KSG67481.1 26547 29776 2111 1037 KSE90523.1 26549 29778 2065 1038 KSF67271.1 26551 29780 2111 1039 KSG19233.1 26553 29782 2071 1040 KSG75230.1 26555 29784 2071 1041 KSG85551.1 26557 29786 2071 1042 KSH39435.1 26559 29788 2071 1043 KSH60318.1 26561 29790 2071 1044 KSI21888.1 26563 29792 2071 1045 KSI51647.1 26565 29794 2111 1046 KSI82065.1 26567 29796 2111 1047 KSI99534.1 26569 29798 2071 1048 KSJ34446.1 26571 29800 2111 1049 KSK63577.1 26573 29802 2111 1050 KSL53780.1 26575 29804 2071 1051 KSM73159.1 26577 29806 2111 1052 KSM79529.1 26579 29808 2071 1053 KSN72433.1 26581 29810 2071 1054 KSO70043.1 26583 29812 2065 1055 KSQ54928.1 26585 29814 2071 1056 KSQ13665.1 26587 29816 2071 1057 KSK33061.1 26589 29818 2071 1058 KSL80809.1 26591 29820 2071 1059 KSL64950.1 26593 29822 2071 1060 KSM29110.1 26595 29824 2111 1061 KSN07702.1 26597 29826 2111 1062 KSN22462.1 26599 29828 2111 1063 KSN45602.1 26601 29830 2071 1064 KSO16559.1 26603 29832 2111 1065 KSO84740.1 26605 29834 2071 1066 KSO99160.1 26607 29836 2111 1067 KSQ29773.1 26609 29838 2071 1068 KSR12008.1 26611 29840 2071 1069 KSR96663.1 26613 29842 2063 1070 KSS25407.1 26615 29844 2066 1071 KSS39723.1 26617 29846 2102 1072 KSR72291.1 26619 29848 2071 1073 KSS45916.1 26621 29850 2111 1074 ALY37667.1 26623 29852 2111 1075 ALY62761.1 26625 29854 2111 1076 KXC98055.1 26627 29856 2071 1077 KXC86270.1 26629 29858 2071 1078 KXD25935.1 26631 29860 2071 1079 KXD08976.1 26633 29862 2071 1080 KXD14400.1 26635 29864 2071 1081 KXD23256.1 26637 29866 2071 1082 KXC87701.1 26639 29868 2071 1083 KXF38181.1 26641 29870 2071 1084 KXF47395.1 26643 29872 2071 1085 KXF43344.1 26645 29874 2071 1086 KYO95528.1 26647 29876 2111 1087 KAJ18077.1 26649 29878 2071 1088 ERY57593.1 26651 29880 2071 1089 ERY65607.1 26653 29882 2071 1090 ERV59835.1 26655 29884 2071 1091 ERY33374.1 26657 29886 2071 1092 ERY37451.1 26659 29888 2071 1093 ERY30829.1 26661 29890 2071 1094 ERW68206.1 26663 29892 2071 1095 ERW13882.1 26665 29894 2071 1096 ERV79732.1 26667 29896 2071 1097 ETV52349.1 26669 29898 1470 1098 ERU88468.1 26671 29900 2071 1099 ERU86603.1 26673 29902 2071 1100 KEA15335.1 26675 29904 2071 1101 ERZ32986.1 26677 29906 2071 1102 GAA19670.1 26679 29908 2071 1103 EME92221.1 26681 29910 2111 1104 EYU00121.1 26683 29912 2111 1105 EOT13873.1 26685 29914 2066 1106 ETU84934.1 26687 29916 2068 1107 ERX16723.1 26689 29918 2071 1108 EWH25347.1 26691 29920 2071 1109 GAD64771.1 26693 29922 2066 1110 GAD61323.1 26695 29924 2066 1111 EZQ18206.1 26697 29926 2105 1112 AMO73922.1 26699 29928 2112 1113 KPW38759.1 26701 29930 2073 1114 KQB53691.1 26703 29932 2111 1115 EZI30291.1 26705 29934 2087 1116 KIR22316.1 26707 29936 2085 1117 KJH86793.1 26709 29938 2065 1118 KWV84209.1 26711 29940 2065 1119 EFQ63350.1 26713 29942 2099 1120 KMM97951.1 26715 29944 2111 1121 ENY78086.1 26717 29946 2084 1122 ENA27917.1 26719 29948 1970 1123 EWC41755.1 26721 29950 1771 1124 EMD98966.1 26723 29952 2068 1125 KPB88882.1 26725 29954 1448 1126 KFD13679.1 26727 29956 2106 1127 ACE91184.1 26729 29958 2041 1128 KKZ86596.1 26731 29960 2036 1129 KQU04981.1 26733 29962 2042 1130 CCF21881.1 26735 29964 1778 1131 KQZ63426.1 26737 29966 2007 1132 KIV64827.1 26739 29968 2033 1133 KQB14222.1 26741 29970 2012 1134 KQB14197.1 26743 29972 2012 1135 ETX15683.1 26745 29974 2020 1136 KJS41398.1 26747 29976 1995 1137 EPX84387.1 26749 29978 1417 1138 GAS73920.1 26751 29980 2106 1139 GAS79508.1 26753 29982 2106 1140 KHP17885.1 26755 29984 2106 1141 KHP06994.1 26757 29986 2106 1142 ESJ40086.1 26759 29988 2106 1143 KNB22031.1 26761 29990 2106 1144 AJD94187.1 26763 29992 2106 1145 AJD98581.1 26765 29994 2106 1146 CEA95105.1 26767 29996 2106 1147 CEB50843.1 26769 29998 2106 1148 CDU93374.1 26771 30000 2106 1149 CEB74773.1 26773 30002 2106 1150 CED02079.1 26775 30004 2106 1151 CEC70256.1 26777 30006 2106 1152 CDZ07208.1 26779 30008 2106 1153 CED89041.1 26781 30010 2106 1154 CDV50414.1 26783 30012 2106 1155 CFW88482.1 26785 30014 2106 1156 CDZ03619.1 26787 30016 2106 1157 CEC95426.1 26789 30018 2106 1158 CDV33411.1 26791 30020 2106 1159 CEB60520.1 26793 30022 2106 1160 CEC11581.1 26795 30024 2106 1161 CEA33004.1 26797 30026 2106 1162 CDV54740.1 26799 30028 2106 1163 CEA34479.1 26801 30030 2106 1164 CED50260.1 26803 30032 2106 1165 CEC06544.1 26805 30034 2106 1166 CDY81479.1 26807 30036 2106 1167 CEC66459.1 26809 30038 2106 1168 CDU75276.1 26811 30040 2106 1169 CDV02402.1 26813 30042 2106 1170 CDU44889.1 26815 30044 2106 1171 CEA82129.1 26817 30046 2106 1172 CDV48179.1 26819 30048 2106 1173 CEA48949.1 26821 30050 2106 1174 CDU62790.1 26823 30052 2106 1175 CDV82103.1 26825 30054 2106 1176 CEC15870.1 26827 30056 2106 1177 CEB34159.1 26829 30058 2106 1178 CEC22809.1 26831 30060 2106 1179 CEC29439.1 26833 30062 2106 1180 CEC81190.1 26835 30064 2106 1181 CEC27073.1 26837 30066 2106 1182 CDV36502.1 26839 30068 2106 1183 CDV99879.1 26841 30070 2106 1184 CEB21249.1 26843 30072 2106 1185 CED29538.1 26845 30074 2106 1186 CEA65653.1 26847 30076 2106 1187 CDV77393.1 26849 30078 2106 1188 CEB99322.1 26851 30080 2106 1189 CEC87091.1 26853 30082 2106 1190 CEC03349.1 26855 30084 2106 1191 CDW68451.1 26857 30086 2106 1192 CEB36538.1 26859 30088 2106 1193 CEB92475.1 26861 30090 2106 1194 CEC70642.1 26863 30092 2106 1195 CED19417.1 26865 30094 2106 1196 CDU57393.1 26867 30096 2106 1197 CEC55614.1 26869 30098 2106 1198 CDW10769.1 26871 30100 2106 1199 CED40434.1 26873 30102 2106 1200 CEA77527.1 26875 30104 2106 1201 CEC78576.1 26877 30106 2106 1202 CDV87318.1 26879 30108 2106 1203 CEA60260.1 26881 30110 2106 1204 CDU45976.1 26883 30112 2106 1205 CED26176.1 26885 30114 2106 1206 CEA55542.1 26887 30116 2106 1207 CDU57356.1 26889 30118 2106 1208 CEC22620.1 26891 30120 2106 1209 CDU81239.1 26893 30122 2106 1210 CEC22198.1 26895 30124 2106 1211 CDV00136.1 26897 30126 2106 1212 CDV32907.1 26899 30128 2106 1213 CEB32341.1 26901 30130 2106 1214 CDU66154.1 26903 30132 2106 1215 CEB23430.1 26905 30134 2106 1216 CEA69988.1 26907 30136 2106 1217 CED34529.1 26909 30138 2106 1218 CDU60154.1 26911 30140 2106 1219 CEB02150.1 26913 30142 2106 1220 CDV16494.1 26915 30144 2106 1221 CEA70647.1 26917 30146 2106 1222 CEB86467.1 26919 30148 2106 1223 CDV63738.1 26921 30150 2106 1224 CEB22316.1 26923 30152 2106 1225 CDY85018.1 26925 30154 2106 1226 CDY91991.1 26927 30156 2106 1227 CDV63669.1 26929 30158 2106 1228 CDV76959.1 26931 30160 2106 1229 CDV25167.1 26933 30162 2106 1230 CEA29072.1 26935 30164 2106 1231 CEC16650.1 26937 30166 2106 1232 CDV58579.1 26939 30168 2106 1233 CDV98717.1 26941 30170 2106 1234 CED02849.1 26943 30172 2106 1235 CDU96709.1 26945 30174 2106 1236 CEB76238.1 26947 30176 2106 1237 CEC37117.1 26949 30178 2106 1238 CDU99401.1 26951 30180 2106 1239 CEB54811.1 26953 30182 2106 1240 CEC86156.1 26955 30184 2106 1241 CDV41199.1 26957 30186 2106 1242 CDV19346.1 26959 30188 2106 1243 CEA51459.1 26961 30190 2106 1244 CEA31321.1 26963 30192 2106 1245 CEC70728.1 26965 30194 2106 1246 CEB55402.1 26967 30196 2106 1247 CED14441.1 26969 30198 2106 1248 CED18823.1 26971 30200 2106 1249 CEB11068.1 26973 30202 2106 1250 CEA27404.1 26975 30204 2106 1251 CED08652.1 26977 30206 2106 1252 CEB93594.1 26979 30208 2106 1253 CDY97806.1 26981 30210 2106 1254 CEA81537.1 26983 30212 2106 1255 CEA95804.1 26985 30214 2106 1256 CED39167.1 26987 30216 2106 1257 CEC46303.1 26989 30218 2106 1258 CEB93174.1 26991 30220 2106 1259 CEB06233.1 26993 30222 2106 1260 CEC59899.1 26995 30224 2106 1261 CDW11869.1 26997 30226 2106 1262 CEB87176.1 26999 30228 2106 1263 CDU53202.1 27001 30230 2106 1264 CEB57382.1 27003 30232 2106 1265 CED48957.1 27005 30234 2106 1266 CDW00036.1 27007 30236 2106 1267 CDV01782.1 27009 30238 2106 1268 CEA40515.1 27011 30240 2106 1269 CEB13671.1 27013 30242 2106 1270 CEA18907.1 27015 30244 2106 1271 CDY92810.1 27017 30246 2106 1272 CEA88151.1 27019 30248 2106 1273 AKO82197.1 27021 30250 2106 1274 CAR62300.1 27023 30252 2106 1275 ESF93194.1 27025 30254 2106 1276 AAV80042.1 27027 30256 2106 1277 EPE40530.1 27029 30258 2106 1278 EPE40312.1 27031 30260 2106 1279 EPE40094.1 27033 30262 2106 1280 KSB43365.1 27035 30264 2106 1281 ELX27348.1 27037 30266 2106 1282 EHC78169.1 27039 30268 2106 1283 ESF47592.1 27041 30270 2106 1284 CUS01661.1 27043 30272 2106 1285 CUS00363.1 27045 30274 2106 1286 CUS00365.1 27047 30276 2106 1287 CUS00364.1 27049 30278 2106 1288 CBY96201.1 27051 30280 2106 1289 EDZ29121.1 27053 30282 2106 1290 KNM15295.1 27055 30284 2106 1291 KNM69140.1 27057 30286 2106 1292 KNO58854.1 27059 30288 2106 1293 KNW78917.1 27061 30290 2106 1294 KTZ77423.1 27063 30292 2106 1295 KUC23741.1 27065 30294 2106 1296 ESF03066.1 27067 30296 2106 1297 KMJ09049.1 27069 30298 2106 1298 CVG51413.1 27071 30300 1441 1299 CVB32145.1 27073 30302 1441 1300 EZQ69787.1 27075 30304 2106 1301 EFE97640.1 27077 30306 2084 1302 KFK98826.1 27079 30308 2114 1303 KFK92331.1 27081 30310 2114 1304 ABK48269.1 27083 30312 2120 1305 AFJ48530.1 27085 30314 2106 1306 GAB81433.1 27087 30316 2106 1307 ACP25985.1 27089 30318 2042 1308 CAN98362.1 27091 30320 2099 1309 EPR18398.1 27093 30322 1312 1310 KKW93259.1 27095 30324 1989 1311 CCW17775.1 27097 30326 1558 1312 KER36316.1 27099 30328 1987 1313 KQM97530.1 27101 30330 1999 1314 KPV39946.1 27103 30332 2084 1315 KQW61501.1 27105 30334 2113 1316 KLE23444.1 27107 30336 2066 1317 EDL70258.1 27109 30338 1452 1318 KHD25449.1 27111 30340 2145 1319 KFE26121.1 27113 30342 2068 1320 KFD94244.1 27115 30344 2068 1321 EJH60535.1 27117 30346 2104 1322 EMQ54782.1 27119 30348 2068 1323 KNA52262.1 27121 30350 2068 1324 GAD79748.1 27123 30352 2141 1325 KNY42355.1 27125 30354 2065 1326 KHF16000.1 27127 30356 2066 1327 KOF25301.1 27129 30358 2068 1328 KHT39219.1 27131 30360 2104 1329 KYN85117.1 27133 30362 2068 1330 EKM24799.1 27135 30364 2143 1331 CDU08194.1 27137 30366 2107 1332 CAV18548.1 27139 30368 2085 1333 KWU01490.1 27141 30370 2066 1334 KOO13422.1 27143 30372 2065 1335 CNI05795.1 27145 30374 2106 1336 CQJ58418.1 27147 30376 2106 1337 CQJ21067.1 27149 30378 2109 1338 CFR01911.1 27151 30380 2106 1339 CNH31705.1 27153 30382 2106 1340 CFV22963.1 27155 30384 2106 1341 KFE39720.1 27157 30386 2106 1342 AKA39096.1 27159 30388 2106 1343 EHM51572.1 27161 30390 2082 (Part D) AO AS DruG DruH AN protein AP AQ AR protein AT AU DNA SEQ length DruH PRT SEQ DNA SEQ length Genomic Start Genomic End AV 1 ID NO: (aa) protein_accession ID NO: ID NO: (aa) Point Point Comments 2 285161 295071 3 23658 35022 4 122429 132246 5 5336 16034 6 5300 15998 7 4236 14105 8 859665 869540 9 346656 356168 10 43741 53633 11 227293 237188 12 1304116 1314874 13 704089 714847 14 1053641 1062444 15 2593529 2604285 16 102484 110617 17 718104 726907 18 621905 629933 19 58930 69532 20 130247 138278 21 3789 14436 22 7008 18501 23 650 9027 24 5201 16574 25 245534 255452 26 2444 10852 27 252885 262420 28 692119 701372 29 3488434 3497693 30 1381151 1390413 31 26796 38135 32 86252 97591 33 1 7760 34 226285 237624 35 825 12164 36 45166 56505 37 6539 17878 38 2707610 2718949 39 111135 122474 40 26765 38104 41 1618476 1629815 42 389081 400420 43 189561 200900 44 33964 45303 45 316476 327815 46 198709 210048 47 203020 214359 48 3735099 3746438 49 170794 182133 50 170697 182036 51 395842 407181 52 314697 326036 53 2239 13578 54 1513766 1525105 55 318207 329546 56 23620 34959 57 90793 102132 58 1 8155 59 30224 41563 60 31431 41533 61 393726 405065 62 1485066 1496405 63 318709 330048 64 7772 17322 65 57001 66608 66 84320 94149 67 1 9036 68 2431766 2441378 69 298110 307722 70 1 9075 71 68076 77685 72 678847 689572 73 267564 278272 74 993973 1004769 75 1471479 1481221 76 1814944 1833410 77 756187 764469 78 273674 283215 79 33201 43136 80 82360 93087 81 207 10677 82 2573999 2584115 83 17690 27795 84 88811 98680 85 233470 243330 86 1894236 1904088 87 18610 29425 88 225 10961 89 5302 15990 90 48622 58258 91 1226195 1236109 92 340028 351370 93 2729 13414 94 426089 435318 95 245308 254531 96 6222 17587 97 10445 17368 98 1131 12496 99 2602750 2614148 100 27199 38358 101 2402449 2413847 102 383162 394525 103 1671024 1682422 104 137353 148718 105 36724 47675 106 3018853 3030235 107 149958 161333 108 17322 28685 109 150639 162037 110 34865 46258 111 19937 31423 112 2177440 2186149 113 118192 128839 114 443806 454453 115 2764522 2775796 116 8919 17199 117 83723 99028 118 10459 21092 119 5588864 5599650 120 2918005 2927268 121 8795 20113 122 808851 820169 123 232897 244248 124 27659 699 112735 123898 125 79463 92802 126 220561 233009 127 27669 639 246334 258609 128 1958381 1969570 129 3844801 3855950 130 27679 696 7678787 7690517 131 27683 689 2014187 2025976 132 27686 700 550646 561413 133 27690 707 5526 17650 134 27694 716 112272 128556 135 27697 541 308758 321298 136 27700 541 305254 317794 137 27704 655 46911 59042 138 27708 655 104315 116446 139 27711 541 5069 17609 140 27101 39571 141 80817 95890 142 1127089 1138713 143 27724 926 4083820 4096459 144 27728 696 701693 713454 145 27732 698 337549 349277 146 2777 14206 147 27739 695 5370773 5382607 148 1480736 1493419 149 27746 695 1679797 1691556 150 27750 926 220348 232987 151 27754 926 6453 19092 152 27758 926 46058 58697 153 27761 926 46480 59113 154 27765 937 96516 109246 155 27769 937 1092 13822 156 27773 937 96516 109246 157 27777 937 96516 109246 158 27781 937 96516 109246 159 27785 937 96516 109246 160 27789 937 96516 109246 161 27793 937 96516 109246 162 27797 937 96516 109246 163 27801 937 96516 109246 164 27805 937 96516 109246 165 27809 937 96516 109246 166 27813 690 581118 592872 167 27817 937 115861 128591 168 27821 937 96538 109268 169 27825 926 1528 14167 170 27829 754 4194850 4207568 171 3329 19651 172 39907 50236 173 27839 696 2598976 2610644 174 27843 937 5340349 5353079 175 236820 251252 176 27850 872 66102 80532 177 1203521 1214561 178 27857 684 5406366 5418388 179 27861 715 4827708 4839442 180 49526 60017 181 3247787 3258736 182 4110265 4122706 183 27874 695 163466 175215 184 8136 20398 185 5149282 5160143 186 6943666 6954529 187 115793 125399 188 2162370 2172185 189 27893 696 43659 55415 190 27896 530 441 12638 191 27900 940 1385409 1398159 192 27904 931 2442587 2455235 193 27908 938 864468 877224 194 27911 711 3263838 3274393 195 27914 711 4548827 4559382 196 27917 711 63393 73948 197 27920 711 743 11298 198 27924 711 72805 84541 199 27928 711 72805 84541 200 27931 711 741 11296 201 27935 711 72805 84541 202 27939 711 72805 84541 203 27943 711 70442 82178 204 27947 711 37743 49479 205 27951 711 982 12718 206 27955 711 72805 84541 207 27959 711 205420 217156 208 27963 711 915 12651 209 27967 711 72805 84541 210 27971 711 977 12713 211 27975 711 72805 84541 212 27978 697 5833 16378 213 27982 711 915 12651 214 27986 711 988 12724 215 27990 711 915 12651 216 27994 711 72805 84541 217 27997 697 5631 16176 218 28001 711 72805 84541 219 28005 711 72805 84541 220 28009 711 915 12651 221 28013 711 915 12651 222 28017 711 732 12468 223 28021 711 72805 84541 224 28024 711 2632018 2642573 225 28028 711 2471032 2482723 226 28032 711 795908 807599 227 28036 711 2515204 2526895 228 28040 711 3347675 3359366 229 28044 711 73643 85334 230 28048 697 353197 365180 231 28052 711 3317256 3328947 232 28056 710 2412440 2424132 233 28060 711 328927 340618 234 28063 713 90286 99824 235 28066 711 3447532 3458087 236 28070 711 2935764 2947455 237 28074 711 27284 38975 238 28078 712 3467956 3479700 239 28082 711 128157 139861 240 28086 711 39127 50831 241 28090 611 18407 30437 242 28094 697 18502 30466 243 28098 697 119061 131025 244 28102 697 18386 30416 245 28105 627 1131 11369 246 28109 688 51400 63317 247 28112 688 25409 35277 248 619907 631929 249 28119 926 86254 98887 250 28123 698 84624 96349 251 28127 698 260934 272659 252 28131 698 260934 272659 253 28135 926 138803 151436 254 28139 698 254096 265821 255 28143 698 84624 96349 256 28147 698 260934 272659 257 28151 698 260934 272659 258 28155 698 84624 96349 259 28159 698 84624 96349 260 28163 698 84624 96349 261 28167 698 105497 117255 262 28171 698 941313 953071 263 28175 926 36048 48681 264 28178 926 1 10627 265 28182 926 4052 16685 266 28186 698 75007 86783 267 28190 698 3128238 3139966 268 28194 698 117975 129703 269 28198 926 30971 43604 270 28202 926 55282 67915 271 28205 926 1886892 1899525 272 28209 926 2821816 2834449 273 28213 679 4744370 4757010 274 28217 926 4554614 4567253 275 28221 926 4646084 4658723 276 28225 679 4811280 4823920 277 28229 926 149904 162543 278 28233 618 11206 23846 279 28237 695 4232584 4244337 280 28240 695 3948 15701 281 28244 693 3412342 3424101 282 28248 696 92338 104097 283 3419212 3429296 284 3422352 3432436 285 28258 639 16523 28443 286 3523471 3533850 287 1624260 1637507 288 12158 24902 289 28271 938 39835 52569 290 28275 938 225795 238529 291 28279 929 32560 45315 292 28283 938 1842 14576 293 28287 929 288594 301349 294 28291 938 4116123 4128871 295 28295 901 101530 114278 296 KXV70697.1 25068 28297 557 3917 12134 297 AKQ30570.1 25070 28299 1096 1915082 1924692 298 KOP86149.1 25072 28301 1096 5407 15017 299 KRS04353.1 25074 28303 1096 11453 21063 300 KRS02341.1 25076 28305 1096 71328 80938 301 KRS03108.1 25078 28307 1096 11453 21063 302 KRR94713.1 25080 28309 1096 29556 39166 303 KRS09272.1 25082 28311 1096 71328 80938 304 EXE63525.1 25084 28313 1096 695254 704870 305 EXC47767.1 25086 28315 1122 5489 15158 306 ELW93014.1 25088 28317 1096 15113 24729 307 ENW35932.1 25090 28319 404 469715 477249 308 ENW44601.1 25092 28321 1097 573781 583394 309 ENW49013.1 25094 28323 1122 463130 472796 310 EKP68253.1 25096 28325 1122 270846 280512 311 EKL42058.1 25098 28327 1096 30124 39734 312 ENV15229.1 25100 28329 1120 3309500 3319165 313 ENX21438.1 25102 28331 1097 509761 519374 314 ENV06098.1 25104 28333 1122 771437 781106 315 EDS03748.1 25106 28335 1065 88763 98100 316 AMN11449.1 25108 28337 1132 1725136 1734833 317 AFT94988.1 25110 28339 1132 1765863 1775560 318 EGF91080.1 25112 28341 1147 331550 341110 319 ESQ74518.1 25114 28343 1147 32073 41627 320 CAL94924.1 25116 28345 1192 2527848 2537752 321 AJE23875.1 25118 28347 1110 197536 206001 322 CUA18546.1 25120 28349 1065 2356943 2366283 323 CBW22537.1 25122 28351 1065 2371910 2381250 324 EYA28062.1 25124 28353 1065 293528 302868 325 EYA33840.1 25126 28355 1037 163999 173255 326 EXY44319.1 25128 28357 1052 187 9488 327 EYB10317.1 25130 28359 1065 1271019 1280359 328 EXZ67957.1 25132 28361 1037 20085 29341 329 EXY49047.1 25134 28363 1065 152 9492 330 EXY53776.1 25136 28365 1065 152 9492 331 EDS16319.1 25138 28367 1065 257362 266699 332 KXT38968.1 25140 28369 1065 23341 32678 333 EGW44031.1 25142 28371 1115 780950 790461 334 EEA03716.1 25144 28373 1107 62115 71698 335 KVM07645.1 25146 28375 1046 33574 42969 336 KVM11422.1 25148 28377 1046 33574 42969 337 KVM41743.1 25150 28379 1046 33574 42969 338 KVU39939.1 25152 28381 247 370491 377497 339 KVX50940.1 25154 28383 1046 44196 53591 340 CDH43329.1 25156 28385 655 4045 12202 341 KPA18786.1 25158 28387 1131 595 10180 342 AIY12567.1 25160 28389 1006 1117511 1126448 343 EYF08671.1 25162 28391 1135 53327 62186 344 KQM35754.1 25164 28393 995 5095 13992 345 ALD78155.1 25166 28395 212 3535505 3542469 346 KPR54497.1 25168 28397 1099 99 9732 347 KLV49874.1 25170 28399 1204 585396 595495 348 KLV71166.1 25172 28401 1099 3121291 3130924 349 BAO81223.1 25174 28403 1185 1467812 1477691 350 ALB51924.1 25176 28405 581 3364334 3372410 351 AGE87744.1 25178 28407 581 3364989 3373065 352 KJR98716.1 25180 28409 1125 158922 168526 353 KLE94550.1 25182 28411 1099 34358 43990 354 KLF52639.1 25184 28413 1095 284140 293760 355 KLW28644.1 25186 28415 1099 100681 110313 356 KLW04618.1 25188 28417 1099 307954 317586 357 KLQ05989.1 25190 28419 978 81311 90573 358 KJI56237.1 25192 28421 978 146027 155289 359 KLP80554.1 25194 28423 736 56455 64988 360 KLW09756.1 25196 28425 1098 216709 226328 361 KLW05114.1 25198 28427 1098 663448 673067 362 KUQ64465.1 25200 28429 1098 1 9538 363 KUQ79075.1 25202 28431 736 1 8452 364 KPS33775.1 25204 28433 1098 80541 90160 365 ESL79956.1 25206 28435 981 2192087 2201355 366 KLW78404.1 25208 28437 736 3877717 3886250 367 KFC20757.1 25210 28439 1007 9124 18004 368 AKQ40860.1 25212 28441 1098 94495 103750 369 EDL49428.1 25214 28443 1099 20106 29358 370 KDM84273.1 25216 28445 978 6814 16064 371 CDU40544.1 25218 28447 1096 393610 403257 372 KHJ28073.1 25220 28449 1096 77599 87246 373 KHI41603.1 25222 28451 978 158488 167738 374 KHH60356.1 25224 28453 1096 25725 35372 375 KHH50449.1 25226 28455 1096 78872 88519 376 KHI22271.1 25228 28457 978 6097 15347 377 KHH70906.1 25230 28459 1096 36388 46035 378 KIG29579.1 25232 28461 978 23204 32454 379 AJE58951.1 25234 28463 1112 4932802 4942497 380 KIY28286.1 25236 28465 978 14480 23730 381 KIZ10080.1 25238 28467 978 13870 23120 382 KJJ46597.1 25240 28469 978 70937 80187 383 KJW55358.1 25242 28471 978 141103 150353 384 KJW51708.1 25244 28473 978 107073 116323 385 KLG52822.1 25246 28475 978 104422 113672 386 KLX28161.1 25248 28477 1096 4718573 4728220 387 KNF16924.1 25250 28479 978 6097 15347 388 KNF21006.1 25252 28481 978 104562 113812 389 KNF39647.1 25254 28483 978 6770 16020 390 KNG41000.1 25256 28485 978 150782 160032 391 KNZ99176.1 25258 28487 1096 44216 53863 392 KOZ12890.1 25260 28489 978 82598 91848 393 KOZ62952.1 25262 28491 978 13754 23004 394 KOZ92097.1 25264 28493 978 37881 47131 395 KOZ11136.1 25266 28495 978 13756 23006 396 KOZ14878.1 25268 28497 978 252679 261929 397 KOZ33113.1 25270 28499 978 79917 89167 398 KOZ23285.1 25272 28501 978 351820 361070 399 KOZ33453.1 25274 28503 978 13754 23004 400 KOZ38041.1 25276 28505 978 13755 23005 401 KOZ50107.1 25278 28507 978 351727 360977 402 KOZ47197.1 25280 28509 978 13752 23002 403 KOZ49679.1 25282 28511 978 351882 361132 404 KOZ66206.1 25284 28513 978 71615 80865 405 KOZ69711.1 25286 28515 978 351658 360908 406 KOZ74971.1 25288 28517 978 21854 31104 407 KOZ84785.1 25290 28519 978 70890 80140 408 KOZ80260.1 25292 28521 978 70889 80139 409 KOZ97703.1 25294 28523 978 140404 149654 410 CTS44167.1 25296 28525 847 218 9124 411 KPH47387.1 25298 28527 978 2323 11573 412 KPH46214.1 25300 28529 978 252468 261718 413 KPH35166.1 25302 28531 978 351816 361066 414 KPH38566.1 25304 28533 978 82601 91851 415 KPO74476.1 25306 28535 978 13791 23041 416 KPP03701.1 25308 28537 978 104692 113942 417 KPP08800.1 25310 28539 978 105621 114871 418 KPP18159.1 25312 28541 978 353473 362723 419 KPP24073.1 25314 28543 978 13790 23040 420 KPP34586.1 25316 28545 978 13790 23040 421 KPP39156.1 25318 28547 978 13790 23040 422 KPP49344.1 25320 28549 978 13791 23041 423 KPP10373.1 25322 28551 978 13791 23041 424 KPP42095.1 25324 28553 978 13789 23039 425 KPP53665.1 25326 28555 978 353543 362793 426 KUH02057.1 25328 28557 978 17180 26430 427 KUH15975.1 25330 28559 734 973 9534 428 KUR31969.1 25332 28561 1096 1385 11032 429 ALZ66919.1 25334 28563 734 2305792 2314353 430 KUT20785.1 25336 28565 1096 48863 58510 431 KUT66045.1 25338 28567 734 37927 46488 432 KUS25251.1 25340 28569 1096 36024 45671 433 KUS40200.1 25342 28571 978 12399 21649 434 KUT25862.1 25344 28573 978 18618 27868 435 KUT18409.1 25346 28575 303 18302 25527 436 KUU15387.1 25348 28577 1096 48864 58511 437 KUT50335.1 25350 28579 978 22067 31317 438 KUX11802.1 25352 28581 1096 21668 31315 439 KUU59476.1 25354 28583 1096 34340 43987 440 KUU32878.1 25356 28585 978 18302 27552 441 KUU24019.1 25358 28587 978 12402 21652 442 KUV88045.1 25360 28589 978 12596 21846 443 KUW19172.1 25362 28591 978 93523 102773 444 KUW69121.1 25364 28593 978 50756 60006 445 KUW47144.1 25366 28595 978 18299 27549 446 KUT58152.1 25368 28597 1096 75379 85026 447 KUX52806.1 25370 28599 1096 12564 22211 448 KUX36551.1 25372 28601 1096 44479 54126 449 AMG81877.1 25374 28603 978 4045570 4054820 450 KXG88716.1 25376 28605 1112 36249 45944 451 KXK90367.1 25378 28607 978 372776 382026 452 KXP75361.1 25380 28609 978 50949 60199 453 KXP57060.1 25382 28611 1096 70703 80350 454 KXP32161.1 25384 28613 850 1 8912 455 KXP24518.1 25386 28615 1096 297690 307337 456 KXR08921.1 25388 28617 524 1 7932 457 KXR32561.1 25390 28619 78 297913 304506 458 KXR26311.1 25392 28621 78 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1214 CDU66161.1 26904 30133 1099 134848 144480 1215 CEB23433.1 26906 30135 1099 1754743 1764375 1216 CEA69989.1 26908 30137 1099 1788795 1798427 1217 CED34531.1 26910 30139 1099 1762471 1772103 1218 CDU60158.1 26912 30141 1099 1772870 1782502 1219 CEB02153.1 26914 30143 1099 1505400 1515032 1220 CDV16495.1 26916 30145 1099 1753390 1763022 1221 CEA70649.1 26918 30147 1099 309354 318986 1222 CEB86473.1 26920 30149 1099 3281543 3291175 1223 CDV63744.1 26922 30151 1099 1753068 1762700 1224 CEB22320.1 26924 30153 1099 1298956 1308588 1225 CDY85019.1 26926 30155 1099 633632 643264 1226 CDY91993.1 26928 30157 1099 2414151 2423783 1227 CDV63674.1 26930 30159 1099 601562 611194 1228 CDV76963.1 26932 30161 1099 1298539 1308171 1229 CDV25168.1 26934 30163 1099 77424 87056 1230 CEA29073.1 26936 30165 1099 3746810 3756442 1231 CEC16657.1 26938 30167 1099 1743338 1752970 1232 CDV58583.1 26940 30169 1099 1753914 1763546 1233 CDV98720.1 26942 30171 1099 601239 610871 1234 CED02856.1 26944 30173 1099 2381174 2390806 1235 CDU96713.1 26946 30175 1099 642929 652561 1236 CEB76242.1 26948 30177 1099 3766799 3776431 1237 CEC37126.1 26950 30179 1099 597747 607379 1238 CDU99405.1 26952 30181 1099 1754390 1764022 1239 CEB54820.1 26954 30183 1099 1847245 1856877 1240 CEC86157.1 26956 30185 1099 165417 175049 1241 CDV41201.1 26958 30187 1099 608177 617809 1242 CDV19348.1 26960 30189 1099 608193 617825 1243 CEA51462.1 26962 30191 1099 1785262 1794894 1244 CEA31323.1 26964 30193 1099 669961 679593 1245 CEC70731.1 26966 30195 1099 1753358 1762990 1246 CEB55411.1 26968 30197 1099 1749599 1759231 1247 CED14443.1 26970 30199 1099 1754022 1763654 1248 CED18826.1 26972 30201 1099 607130 616762 1249 CEB11072.1 26974 30203 1099 1753867 1763499 1250 CEA27402.1 26976 30205 1099 3814476 3824108 1251 CED08653.1 26978 30207 1099 668385 678017 1252 CEB93599.1 26980 30209 1099 2227341 2236973 1253 CDY97807.1 26982 30211 1099 706460 716092 1254 CEA81540.1 26984 30213 1099 309301 318933 1255 CEA95806.1 26986 30215 1099 309463 319095 1256 CED39170.1 26988 30217 1099 2443048 2452680 1257 CEC46310.1 26990 30219 1099 3244245 3253877 1258 CEB93178.1 26992 30221 1099 517816 527448 1259 CEB06236.1 26994 30223 1099 2332565 2342197 1260 CEC59901.1 26996 30225 1099 1788361 1797993 1261 CDW11872.1 26998 30227 1099 1789272 1798904 1262 CEB87182.1 27000 30229 1099 1777428 1787060 1263 CDU53208.1 27002 30231 1099 503202 512834 1264 CEB57391.1 27004 30233 1099 676605 686237 1265 CED48958.1 27006 30235 1099 3782745 3792377 1266 CDW00039.1 27008 30237 1099 1754437 1764069 1267 CDV01787.1 27010 30239 1099 1788427 1798059 1268 CEA40519.1 27012 30241 1099 1783442 1793074 1269 CEB13673.1 27014 30243 1099 1753084 1762716 1270 CEA18908.1 27016 30245 1099 1854428 1864060 1271 CDY92812.1 27018 30247 1099 1752529 1762161 1272 CEA88154.1 27020 30249 1099 1506435 1516067 1273 AKO82198.1 27022 30251 1099 4482333 4491965 1274 CAR62301.1 27024 30253 1099 4477563 4487195 1275 ESF93195.1 27026 30255 1099 11502 21134 1276 AAV80043.1 27028 30257 1099 4482333 4491965 1277 EPE40531.1 27030 30259 1099 85913 95545 1278 EPE40313.1 27032 30261 1099 85780 95412 1279 EPE40095.1 27034 30263 1099 85905 95537 1280 KSB43364.1 27036 30265 1099 156994 166626 1281 ELX27349.1 27038 30267 1099 65113 74745 1282 EHC78170.1 27040 30269 77 221 6787 1283 ESF47593.1 27042 30271 1099 172275 181907 1284 CUS01662.1 27044 30273 1099 4951384 4961016 1285 CUS00367.1 27046 30275 944 4759655 4768822 1286 CUS00368.1 27048 30277 944 4851124 4860291 1287 CUS00366.1 27050 30279 1099 5018293 5027925 1288 CBY96200.1 27052 30281 944 85 9252 1289 EDZ29008.1 27054 30283 285 63002 70192 1290 KNM15296.1 27056 30285 1099 282369 292001 1291 KNM69141.1 27058 30287 1099 343834 353466 1292 KNO58855.1 27060 30289 1099 206734 216366 1293 KNW78916.1 27062 30291 1099 1907 11539 1294 KTZ77424.1 27064 30293 1099 96532 106164 1295 KUC23740.1 27066 30295 1099 171297 180929 1296 ESF03067.1 27068 30297 1099 120111 129743 1297 KMJ09050.1 27070 30299 1099 529831 539463 1298 CVG51486.1 27072 30301 1099 238999 248631 1299 CVB32240.1 27074 30303 1099 239061 248693 1300 EZQ69786.1 27076 30305 1099 90156 99788 1301 EFE97639.1 27078 30307 482 743953 751819 1302 KFK98827.1 27080 30309 1095 286734 296378 1303 KFK92330.1 27082 30311 1095 1654 11298 1304 ABK48268.1 27084 30313 1180 2437310 2447236 1305 AFJ48529.1 27086 30315 263 3585169 3592293 1306 GAB81434.1 27088 30317 269 178785 185928 1307 ACP25984.1 27090 30319 1083 2298324 2307700 1308 CAN98361.1 27092 30321 1152 11387949 11397690 1309 EPR18397.1 27094 30323 1038 2646 9729 1310 KKW93258.1 27096 30325 1099 135724 144994 1311 CCW17774.1 27098 30327 1098 7698 15633 1312 KER36315.1 27100 30329 1064 2812 11959 1313 KQM97529.1 27102 30331 1002 1512 10520 1314 KPV39945.1 27104 30333 499 46068 53818 1315 KQW61500.1 27106 30335 1187 77355 87231 1316 KLE23445.1 27108 30337 1121 177407 186987 1317 EDL70290.1 27110 30339 1125 191775 201360 1318 KHD25448.1 27112 30341 1169 189282 199238 1319 KFE26106.1 27114 30343 1118 33695 43271 1320 KFD94236.1 27116 30345 1118 12302 21878 1321 EJH60536.1 27118 30347 1102 68538 78157 1322 EMQ54781.1 27120 30349 1118 244112 253688 1323 KNA52261.1 27122 30351 1118 12538 22114 1324 GAD79747.1 27124 30353 1169 25836 35781 1325 KNY42356.1 27126 30355 1125 111138 120729 1326 KHF16001.1 27128 30357 1121 3364 12944 1327 KOF25302.1 27130 30359 1121 11973 21559 1328 KHT39220.1 27132 30361 1102 105669 115288 1329 KYN85118.1 27134 30363 1118 68509 78085 1330 EKM24798.1 27136 30365 1169 448059 458009 1331 CDU08195.1 27138 30367 1102 291331 300963 1332 CAV18547.1 27140 30369 1124 1498484 1508125 1333 KWU01491.1 27142 30371 1119 60437 70011 1334 KOO13423.1 27144 30373 1125 88330 97921 1335 CNI05770.1 27146 30375 1100 395449 405084 1336 CQJ58416.1 27148 30377 1100 455230 464865 1337 CQJ21073.1 27150 30379 1117 22700 32382 1338 CFR01913.1 27152 30381 1100 235368 245003 1339 CNH31670.1 27154 30383 1100 474426 484061 1340 CFV22965.1 27156 30385 1100 113536 123171 1341 KFE39719.1 27158 30387 1100 4143 13778 1342 AKA39097.1 27160 30389 1100 2710693 2720328 1343 EHM51571.1 27162 30391 944 252227 261394

Example 7 Genomic Identification and Analysis of an Anti-Plasmid System

Objective:

Some of the putative defense systems experimentally tested did not show any anti-phage activity despite being strongly associated with known defense genes. It was reasoned that some of these systems may defend against other forms of foreign nucleic acid. The objective in this case was to analyze a candidate defense system, which we hereby denote Wadjet (god protector of ancient Egypt) for further experimentation.

Methods:

To test this hypothesis, the Wadjet system was selected for further experimentation. The selected candidate system is a 4-gene system, jetA, jetB, jetC, and jetC, that is common in microbial genomes and is very frequently found next to defense genes (FIG. 7A). Three different types of the Wadjet system were cloned from three separate Bacillus species into B. subtilis BEST7003 (FIG. 7B).

Results:

While none of these systems provided protection against any of the 10 Bacillus phages in the array tested (data not shown), all three consistently and significantly reduced transformation efficiency of the episomal plasmid pHCMC05 (FIG. 7C). These results suggest that this may be a defense system specifically targeting foreign plasmids.

Three different domain compositions were identified, each encoding a different set of pfams, but all with common sequence signatures marking them as three types of Wadjet (FIG. 7B). While the pfam domains of Wadjet genes are mostly defined as “domains of unknown function”, structural modeling using Phyre2 showed structural homology between JetA, JetB and JetC and genes belonging to the housekeeping condensin system MukF, MukE and MukB, respectively. Bacterial condensins are chromosome-organizing complexes that are responsible for DNA condensation and accurate segregation during replication, and mutations in the housekeeping condensins lead to severe defects in chromosome segregation and viability. Several versions of housekeeping codensins appear in bacterial genomes: SMC, MukBEF and MksBEF; the Wadjet system was previously noted as a distant homolog of the MksBEF system described in P. aeruginosa.

While the domain organization of the jetABC genes may lead to the hypothesis that Wadjet is an alternative condensin system involved in bacterial chromosome maintenance, the data herein presented imply that its role is defensive. This system is highly enriched within defense islands, undergoes extensive horizontal gene transfer, and is only sporadically found within strains of the same species, all of which is inconsistent with a core, essential role in chromosome maintenance. The Wadjet system may have adapted from a MukBEF condensin ancestor to become a defense system. Possibly, the system identifies foreign plasmids and uses its condensin properties to interfere with proper plasmid segregation into daughter cells. Notably, plasmid transformation in B. subtilis takes place via the natural competence of this organism, during which the plasmid DNA is transformed to the cell through dedicated transporters as single-stranded DNA (ssDNA). It is possible that the Wadjet system protects against rampant natural transformation or, alternatively, may specifically target ssDNA phages. However, as no ssDNA phage was reported for B. subtilis, it could not be tested whether ssDNA phages are specifically blocked by the Wadjet systems we cloned in B. subtilis BEST7003.

The Wadjet system is broadly spread in bacterial and archaeal genomes (found in ˜6% of the genomes that were studied), where it presents high sequence diversity (Table 11; FIG. 3H). Deletion of each of the four genes in Type I Wadjet from B. cereus Q1 abolished its activity and restored plasmid transformation, indicating that each of the genes is essential for anti-plasmid defense (FIG. 7C). Moreover, point mutations E59K/K60E in JetB, predicted to disrupt the MukE-MukF-like protein-protein interactions, resulted in loss of protective activity against plasmids (data not shown), and so has the E1025Q mutation in the Walker-B motif of JetC that is predicted to abolish ATPase activity. The JetD gene, which has no homology to genes in the Muk system has a putative topoisomerase VI domain based on structural predictions; a point mutation JetD:E226A, predicted to diminish binding of the topoisomerase VI domain to DNA, also abolished the protective activity of the system.

Table 11: The Wadjet Defense System and Components Thereof

This table is presented in landscape orientation. Due to the number of columns, the table has been split into parts. Part A includes the first set of columns and therefore should be place to the left of subsequent parts (Part B and where relevant Part C). To avoid any doubt, the rows of the table in each part line up once the tables are placed together.

Lengthy table referenced here US20200109395A1-20200409-T00001 Please refer to the end of the specification for access instructions.

Example 8 Genomic Identification and Analysis of Additional Defense System

Objective:

To identify additional Defense Systems

Methods:

As above for Examples 1-7, wherein anchor protein families used in the searches were as follows:

for the Hachiman Family: pfam08878;

for the Gabija Family: pfam13175, pfam13304;

for the Kiwa Family: pfam16162;

for the Lamassu Family: pfam14130;

for the Shedu Family: pfam14082;

for the Septu Family: COG3950; and

for the Wadjet Family: COG4913, COG4924, pfam11796, pfam09664, pfam13555.

Results:

each of these systems was validated by introducing the system constructs into an appropriate bacterial host. The Hachiman, Shedu, Gabija, Septu, and Lamassu candidate Defense Systems were each individually engineered into B. subtilis BEST7003, which does not contain the respective defense systems identified. The correct insertion of the system into the B. subtilis BEST7003 genome was verified by whole genome sequencing. The defense system containing B. subtilis BEST7003 strains were challenged with multiple phages spanning the three families Myoviridae, Siphoviridae, and Podoviridae. The cloned systems were found to confer defense against myophages (FIG. 3B), with different fold protection to all or a subset of the phage provided as shown.

The Kiwa candidate Defense System was engineered into a host E. coli (E. coli MG1655; correct insertion checked by whole genome sequencing), wherein it was shown to provide protection against viruses in the Siphoviridae family (FIG. 3C).

The Hachiman, Shedu, Gabija, Septu, and Lamassu candidate Defense Systems were broadly distributed in bacteria and archaea (Tables 12-17; FIG. 3H).

Lengthy table referenced here US20200109395A1-20200409-T00002 Please refer to the end of the specification for access instructions.

Lengthy table referenced here US20200109395A1-20200409-T00003 Please refer to the end of the specification for access instructions.

Lengthy table referenced here US20200109395A1-20200409-T00004 Please refer to the end of the specification for access instructions.

Lengthy table referenced here US20200109395A1-20200409-T00005 Please refer to the end of the specification for access instructions.

Lengthy table referenced here US20200109395A1-20200409-T00006 Please refer to the end of the specification for access instructions.

Lengthy table referenced here US20200109395A1-20200409-T00007 Please refer to the end of the specification for access instructions.

Summary Examples 1-8

Examples 1-8 significantly expand the known arsenal of defense systems used by prokaryotes for protection against phages. This knowledge leads to broader understanding of the global defense capabilities of bacteria, and indeed with our results the content of defense islands now becomes much clearer (FIGS. 4A, 4D, 5A, 6A, 7A). However, the results do not yet expose the complete set of prokaryotic defense systems. Out of the 28 candidate systems tested, 10 were verified as anti-phage defense systems and an additional one showed protection against plasmids. The remaining 17, although not verified by the experiments, do not necessarily represent false predictions, as exemplified by the fact that only 50% of our positive control systems showed defense in the assays. Lack of activity could possibly stem from incompatibility of some tested systems with the recipient organism (E. coli or B. subtilis), or due to pseudogenization of some systems in their genome of origin. Some systems can be highly specific against a certain type of phages or foreign genetic element not represented in the phage set, while others may work in a specific condition not tested in the study. Clade-specific potential systems such as those found only in archaea or cyanobacteria (Table 3) were not tested in this study and can represent a more specialized defense arsenal unique only to a subset of organisms. Finally, some true systems may have been missed by falsely tagging them as belonging to the “mobilome” (Table 2), as mobile genetic elements have intimate evolutionary relationship with defense systems.

While certain features have been illustrated and described herein, many modifications, substitutions, changes, and equivalents will now occur to those of ordinary skill in the art. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the disclosure presented herein.

LENGTHY TABLES The patent application contains a lengthy table section. A copy of the table is available in electronic form from the USPTO web site (http://seqdata.uspto.gov/?pageRequest=docDetail&DocID=US20200109395A1). An electronic copy of the table will also be available from the USPTO upon request and payment of the fee set forth in 37 CFR 1.19(b)(3). 

What is claimed is:
 1. A method of protecting bacteria from foreign nucleic acid invasion, said method comprising a step of introducing into the bacteria at least one defense system (a) to (o), said at least one defense system comprising: (a) a Defense System IV comprising at least two different polypeptide components selected from a HamA polypeptide comprising a pfam08878 domain or a DUF1837 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns H and I; and a HamB polypeptide comprising COG1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns L and M; or (b) a Defense System Ia comprising at least two different polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; a ZorC polypeptide comprising a pfam15611 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns R and S; and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns V and W; or (c) a Defense System Ib comprising a ZorE polypeptide comprising a pfam01844 domain or a COG3183 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 1175-1830 columns Z and AA; and at least one other polypeptide component selected from a ZorA polypeptide comprising a pfam01618 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; and a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, or comprising an amino acid sequence having at leak 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; or (d) a Defense System II comprising at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 domain or a pfam14519 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns I and J; and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD; or (e) a Defense System IIIa comprising at least two different polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof; or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K, or a combination thereof; a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (f) a Defense System IIIb comprising at least two different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 column Z and AA; or (g) a Defense System IIIc comprising at least two different polypeptide components selected from a DruH polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 296-1343 columns AP and AQ; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (h) a Defense System V comprising a SduA polypeptide comprising a pfam14082 domain or a pfam01939 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 13 rows 2-1247 columns H and I; or (i) a Defense System VI comprising at least two different polypeptide components selected from a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns H and I; and a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns L and M; or (j) a Defense System VII comprising at least two different polypeptide components selected from a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-12507 columns H and I; and a PtuB polypeptide comprising pfam13395 domain or a pfam 01844 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-2507 columns L and M; or (k) a Defense System VIII comprising at least two different polypeptide components selected from a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns H and I; and a LmuB polypeptide comprising a pfam02463 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns L and M; or (l) a Defense System IX comprising at least two different polypeptide components selected from a KwaA polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns H and I; and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof; or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns L and M; or (m) a Defense System Xa comprising at least two different polypeptide components selected from a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns J and K; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns N and O; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or any combination thereof; or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns R and S; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns V and W; or (n) a Defense System Xb comprising at least two different polypeptide components selected from a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns J and K; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns N and O; a JetC^(ii) polypeptide comprising a pfam13558 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns R and S; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns V and W; or (o) a Defense System Xc comprising at least two different polypeptide components selected from a JetA^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns and K; a JetB^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns N and O; a JetC^(iii) polypeptide comprising a COG1196 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns R and S; and a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain or a DUF2220 or a DUF2399 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns V and W; or (p) any combination of Defense Systems Ia-Xc (a)-(o); wherein the introduction of said at least one defense system results in the bacteria being protected from foreign DNA invasion.
 2. The method of claim 1, wherein said protecting bacteria from foreign nucleic acid invasion comprises protecting from phage infection, protection from plasmid transformation, or protecting from entry of conjugative elements, or any combination thereof.
 3. The method of claim 2, wherein said phage comprises a single stranded DNA (ssDNA) phage, a double stranded DNA (dsDNA) phage, a single stranded RNA (ssRNA) phage, a double stranded RNA (dsRNA) phage, a lytic phage, or a lysogenic phage, or a combination thereof.
 4. The method of claim 1, wherein said at least one defense system comprises (a) a Defense System IV comprising the HamA polypeptide and the HamB polypeptide; or (b) a Defense System Ia comprising the ZorA polypeptide, the ZorB polypeptide, the ZorC polypeptide, and the ZorD polypeptide; or (c) a Defense System Ib comprising the ZorA polypeptide, the ZorB polypeptide, and the ZorE polypeptide; or (d) a Defense System II comprising the ThsA polypeptide, and the ThsB polypeptide; or (e) a Defense System IIIa comprising the DruA polypeptide, the DruB polypeptide, the DruC polypeptide, the DruD polypeptide, and the DruE polypeptide; or (f) a Defense System IIIb comprising the DruM polypeptide, the DruF polypeptide, the DruG polypeptide, and the DruE polypeptide; or (g) a Defense System IIIc comprising the DruH polypeptide and the DruE polypeptide; or (h) a Defense System V comprising the SduA polypeptide; or (i) a Defense System VI comprising the GajA polypeptide and the GajB polypeptide; or (j) a Defense System VII comprising the PtuA polypeptide and the PtuB polypeptide; or (k) a Defense System VIII comprising the LmuA polypeptide and the LmuB polypeptide; or (l) a Defense System IX comprising the KwaA polypeptide and the KwaB polypeptide; or (m) a Defense System Xa comprising the JetA polypeptide, the JetB polypeptide, the JetC polypeptide, and the JetD polypeptide; or (n) a Defense System Xb comprising the JetA^(ii) polypeptide, the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the JetD^(ii) polypeptide; or (o) a Defense System Xc comprising the JetA^(iii) polypeptide, the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the JetD^(iii) polypeptide; or (p) any combination of Defense Systems Ia-Xc (a)-(o).
 5. The method of claim 1, wherein (a) said Defense System IV is encoded by a nucleic acid sequence selected from the group referenced in Table 12, rows 2-1782, columns G, P, and Q or the nucleic acid sequence set forth in SEQ ID NO: 4; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the HamA polypeptide and HamB polypeptide recited in claim 4; (b) said Defense System Ia is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1174 columns G, AD, and AE or the nucleic acid sequence set forth in SEQ ID NO: 14; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the ZorA polypeptide, the ZorB polypeptide, the ZorC polypeptide, and ZorD polypeptide recited in claim 4; (c) said Defense System Ib is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 1175-1830 columns G, AD, and AE or set forth in SEQ ID NO: 15; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the ZorA polypeptide, the ZorB polypeptide, and ZorE polypeptide recited in claim 4; (d) said Defense System II is encoded by a nucleic acid sequence selected from the group referenced in Table 9 rows 2-2100 columns G, AG, and AH or set forth in the nucleic acid sequence set forth in SEQ ID NO: 10 or SEQ ID NO: 11; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the ThsA polypeptide and the ThsB polypeptide recited in claim 4; (e) said Defense System IIIa is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns G, AT, and AU or set forth in SEQ ID NO: 16; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the DruA polypeptide, the DruB polypeptide, the DruC, the DruD, and the DruE polypeptide recited in claim 4; (f) said Defense System IIIb is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns G, AT, AU; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the DruM polypeptide, the DruF polypeptide, the DruG polypeptide, and the DruE polypeptide recited in claim 4; (g) said Defense System IIIc is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 296-1343 columns G, AT, and AU; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the DruH polypeptide and the DruE polypeptide recited in claim 4; (h) said Defense System V is encoded by a nucleic acid sequence selected from the group referenced in Table 13, rows 2-1247, columns H and J; or a nucleic acid sequence encoding the SduA polypeptide of claim 1 and claim 4; (i) said Defense System VI is encoded by a nucleic acid sequence selected from the group referenced in Table 14, rows 2-4599, columns G, P, and Q or the sequences set forth in SEQ ID NO: 5 and SEQ ID NO: 6; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the GajA polypeptide and the GajB polypeptide recited in claim 4; (j) said Defense System VII is encoded by a nucleic acid sequence selected from the group referenced in Table 15, rows 2-2507, columns G, P, and Q or the sequences set forth in SEQ ID NO: 12 and SEQ ID NO: 13; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the Ptu polypeptide and the PtuB polypeptide recited in claim 4; (k) said Defense System VIII is encoded by a nucleic acid sequence selected from the group referenced in Table 16, rows 2-698, columns G, P, and Q or the sequences set forth in SEQ ID NO: 7 and SEQ ID NO: 8; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the LmuA polypeptide and LmuB polypeptide recited in claim 4; (l) said Defense System IX is encoded by a nucleic acid sequence selected from the group referenced in Table 17, rows 2-935, columns G, P, and Q or the sequence set forth in SEQ ID NO: 3; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the KwaA polypeptide and the KwaB polypeptide recited in claim 4; (m) said Defense System Xa is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns G, Z, and AA or the sequence set forth in SEQ ID NO: 17; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the JetA polypeptide, the JetB polypeptide, the JetC polypeptide, and the JetD polypeptide recited in claim 4; (n) said Defense System Xb is encoded by a nucleic acid sequence having at least 80% homology to a sequence selected from the group referenced in Table 11, rows 2323-2844, columns G, Z, and AA or the sequence set forth in SEQ ID NO: 18; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the JetA^(ii) polypeptide, the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the JetD^(ii) polypeptide recited in claim 4; (o) said Defense System Xc is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns G, Z, and AA or the sequence set forth in SEQ ID NO: 19; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the JetA^(iii) polypeptide, the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the JetD^(iii) polypeptide recited in claim
 4. 6. The method of claim 1, wherein (a) for said Defense system IV, said HamA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 12, rows 2-1782, columns H and J, or said HamB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 12, rows 2-1782, columns L and N, or a combination thereof; (b) for said Defense system Ia, said ZorA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1830 columns J and L, said ZorB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1830 columns N and P, said ZorC polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1174 columns R and T, or said ZorD polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1174 columns V and X, or a combination thereof; (c) for said Defense system Ib, said ZorA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1830 columns J and L, said ZorB polypeptide is encoded by a nucleic acid sequence selected from the group Table 8 rows 2-1830 columns N and P, said ZorE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 1175-1830 columns Z and AB, or a combination thereof; (d) for said Defense system II, said ThsA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 9 rows 2-2100 columns I and K, said ThsB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 9 rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE, or a combination thereof; (e) for said Defense system IIIa, said DruA polypeptide is encoded by a nucleic acid sequences selected from the group referenced in Table 10 rows 2-123 columns J and L, or said DruB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns N and P, or said DruC polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns R and T, or said DruD polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns V and X, or said DruE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AB, or a combination thereof; (f) for said Defense system IIIb, said DruM polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AF, or said DruF polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AJ, or said DruG polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AN, or said DruE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AB, or a combination thereof; (g) for said Defense system IIIc, said DruH polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 296-1343 columns AP and AR, or said DruE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and ZB, or a combination thereof; (h) for said Defense system V, said SduA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 13; rows 2-1247, columns H and J; (i) for said Defense system VI, said GajA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 14, rows 2-4599, columns H and J, or said GajB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 14, rows 2-4599, columns L and N, or a combination thereof; (j) for said Defense system VII, said PtuA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 15, rows 2-2507, columns H and J, or said PtuB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 15, rows 2-2507, columns L and N, or a combination thereof; (k) for said Defense system VIII, said LmuA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 16, rows 2-698, columns H and J, or said LmuB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 16, rows 2-698, columns L and N, or a combination thereof; (l) for said Defense system IX, said KwaA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 17, rows 2-935, columns H and J, or said KwaB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 17, rows 2-935, columns L and N, or a combination thereof; (m) for said Defense system Xa, said JetA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns J and L, or said JetB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns N and P, or said JetC polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns R and T, or said JetD polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns V and X, or a combination thereof; (n) for said Defense system Xb, said JetA^(ii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2323-2844, columns J and L, or said JetB^(ii) polypeptide is encoded by a nucleic acid sequence selected group referenced in Table 11, rows 2323-2844, columns N and P, or said JetC^(ii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2323-2844, columns R and T, or said JetD^(ii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2323-2844, columns V and X, or a combination thereof; (o) for said Defense system Xc, said JetA^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns J and L, or said JetB^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns N and P, or said JetC^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns R and T, or said JetD^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns V and X, or a combination thereof.
 7. An at least one defense system (a)-(o), said at least one defense system comprising (a) a Defense System IV comprising at least two different polypeptide components selected from a HamA polypeptide comprising a pfam08878 domain or a DUF1837 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns H and I; and a HamB polypeptide comprising COG-1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns L and M; or (b) a Defense System Ia comprising at least two different polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; a ZorC polypeptide comprising a pfam15611 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns R and S; and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns V and W; or (c) a Defense System Ib comprising a ZorE polypeptide comprising a pfam01844 domain or a COG3183 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 1175-1830 columns Z and AA; and at least one other polypeptide component selected from a ZorA polypeptide comprising a pfam01618 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; and a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; or (d) a Defense System II comprising at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 domain or a pfam14519 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns I and J; and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD; or (e) a Defense System IIIa comprising at least two different polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K, or a combination thereof; a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (f) a Defense System IIIb comprising at least two different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain, or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (g) a Defense System IIIc comprising at least two different polypeptide components selected from a DruH polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 296-1343 columns AP and AQ; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (h) a Defense System V comprising a SduA polypeptide comprising a pfam14082 domain or a pfam01939 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 13 rows 2-1247 columns H and I; or (i) a Defense System VI comprising at least two different polypeptide components selected from a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns H and I; and a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns L and M; or (j) a Defense System VII comprising at least two different polypeptide components selected from a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-12507 columns H and I; and a PtuB polypeptide comprising pfam13395 domain or a pfam 01844 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-2507 columns L and M; or (k) a Defense System VIII comprising at least two different polypeptide components selected from a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns H and I; and a LmuB polypeptide comprising a pfam02463 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns L and M; or (l) a Defense System IX comprising at least two different polypeptide components selected from a KwaA polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns H and I; and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns L and M; or (m) a Defense System Xa comprising at least two different polypeptide components selected from a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns J and K; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns N and O; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns R and S; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns V and W; or (n) a Defense System Xb comprising at least two different polypeptide components selected from a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns J and K; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns N and O; a JetC^(ii) polypeptide comprising a pfam13558 domain comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns R and S; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns V and W; or (o) a Defense System Xc comprising at least two different polypeptide components selected from a JetA^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns J and K; a JetB^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns N and O; a JetC^(iii) polypeptide comprising a COG1196 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns R and S; and a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain or a DUF2220 or a DUF2399 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns V and W; or (p) any combination of the Defense Systems Ia-Xc (a)-(o); wherein said at least one defense system comprises a non-naturally occurring combination of components.
 8. The defense system of claim 7, wherein (a) said Defense System IV comprises the HamA polypeptide and the HamB polypeptide; or (b) said Defense System Ia comprises the ZorA polypeptide, the ZorB polypeptide, the ZorC polypeptide, and the ZorD polypeptide; or (c) said Defense System Ib comprises the ZorA polypeptide, the ZorB polypeptide, and the ZorE polypeptide; or (d) said Defense System II comprises the ThsA polypeptide, and the ThsB polypeptide; or (e) said Defense System IIIa comprises the DruA polypeptide, the DruB polypeptide, the DruC polypeptide, the DruD polypeptide, and the DruE polypeptide; or (f) said Defense System IIIb comprises the DruM polypeptide, the DruF polypeptide, the DruG polypeptide, and the DruE polypeptide; or (f) said Defense System IIIc comprises the DruH polypeptide and the DruE polypeptide; or (h) said Defense System V comprises the SduA polypeptide; or (i) said Defense System VI comprises the GajA polypeptide and the GajB polypeptide; or (j) said Defense System VII comprises the PtuA polypeptide and the PtuB polypeptide; or (k) said Defense System VIII comprises the LmuA polypeptide and the LmuB polypeptide; or (l) said Defense System IX comprises the KwaA polypeptide and the KwaB polypeptide; or (m) said Defense System Xa comprises the JetA polypeptide, the JetB polypeptide, the JetC polypeptide, and the JetD polypeptide; or (n) said Defense System Xb comprises the JetA^(ii) polypeptide, the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the JetD^(ii) polypeptide; or (o) said Defense System Xc comprises the JetA^(iii) polypeptide, the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the JetD^(ii) polypeptide.
 9. The at least one defense system of claim 7, wherein said defense system provides a host cell with resistance to foreign nucleic acid invasion.
 10. The at least one defense system of claim 9, wherein said resistance to foreign nucleic acid invasion comprises resistance to at least one phage infection, or resistance to plasmid transformation, or resistance to entry of a conjugative element, or any combination thereof.
 11. A nucleic acid construct encoding an at least one defense system (a)-(o), said nucleic acid construct comprising (a) a nucleic acid construct encoding a Defense System IV comprising at least two different polypeptide components selected from a HamA polypeptide comprising a pfam08878 domain or a DUF1837 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns H and I; and a HamB polypeptide comprising COG1204 domain or a pfam00270 domain or a pfam00271 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 12 rows 2-1782 columns L and M; or (b) a nucleic acid construct encoding a Defense System Ia comprising at least two different polypeptide components selected from a ZorA polypeptide comprising a pfam01618 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; a ZorB polypeptide comprising a pfam 13677 domain or a pfam00691 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; a ZorC polypeptide comprising a pfam15611 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns R and S; and a ZorD polypeptide comprising a pfam00176 domain or a pfam00271 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1174 columns V and W; or (c) a nucleic acid construct encoding a Defense System Ib comprising a ZorE polypeptide comprising a pfam01844 domain or a COG3183 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 1175-1830 columns Z and AA; and at least one other polypeptide component selected from a ZorA polypeptide comprising a pfam01618 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns J and K; and a ZorB polypeptide comprising a pfam13677 domain or a pfam00691 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 8 rows 2-1830 columns N and O; or (d) a nucleic acid construct encoding a Defense System II comprising at least two different polypeptide components selected from a ThsA polypeptide comprising a pfam13289 domain or a pfam14519 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns I and J; and a ThsB polypeptide comprising a pfam13676 domain or a pfam08937 domain or a pfam08357 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 9 rows 2-2100 columns M and N, Q and R, U and V, Y and Z, and AC and AD; or (e) a nucleic acid construct encoding a Defense System IIIa comprising at least two different polypeptide components selected from a DruA polypeptide comprising a DUF4338 domain or a pfam14236 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns J and K, or a combination thereof; a DruB polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns N and O; a DruC polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns R and S; a DruD polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-123 columns V and W; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (f) a nucleic acid construct encoding a Defense System IIIb comprising at least two different polypeptide components selected from a DruM polypeptide comprising a pfam00145 domain or a COG0270 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AE; a DruF polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AI; a DruG polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AM; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (g) a nucleic acid construct encoding a Defense System IIIc comprising at least two different polypeptide components selected from a DruH polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 296-1343 columns AP and AQ; and a DruE polypeptide comprising a pfam00270 domain or a pfam00271 domain or a pfam09369 domain or a DUF1998 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AA; or (h) a nucleic acid construct encoding a Defense System V comprising a SduA polypeptide comprising a pfam14082 domain or a pfam01939 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 13 rows 2-1247 columns H and I; or (i) a nucleic acid construct encoding a Defense System VI comprising at least two different polypeptide components selected from a GajA polypeptide comprising a pfam13175 domain or a COG3593 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns H and I; and a GajB polypeptide comprising a pfam04257 domain or a pfam00580 domain or a pfam13361 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 14 rows 2-4599 columns L and M; or (j) a nucleic acid construct encoding a Defense System VII comprising at least two different polypeptide components selected from a PtuA polypeptide comprising a pfam13304 domain or a pfam02463 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-12507 columns H and I; and a PtuB polypeptide comprising pfam13395 domain or a pfam 01844 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 15 rows 2-2507 columns L and M; or (k) a nucleic acid construct encoding a Defense System VIII comprising at least two different polypeptide components selected from a LmuA polypeptide comprising a pfam14130 domain or a DUF4297 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns H and I; and a LmuB polypeptide comprising a pfam02463 domain, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 16 rows 2-698 columns L and M; or (l) a nucleic acid construct encoding a Defense System IX comprising at least different polypeptide components selected from a KwaA polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns II and I; and a KwaB polypeptide comprising a pfam16162 domain or a DUF4868 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 17 rows 2-935 columns L and M; or (m) a nucleic acid construct encoding a Defense System Xa comprising at least two different polypeptide components selected from a JetA polypeptide comprising a pfam11855 domain or a DUF3375 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns J and K; a JetB polypeptide comprising a pfam13835 domain or a DUF4194 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns N and O; a JetC polypeptide comprising a pfam13555 domain or a pfam13558 domain or a COG4913 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns R and S; and a JetD polypeptide comprising a pfam11795 domain or a DUF3322 domain or a pfam09983 domain or a DUF2220 domain or a COG4924 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2-2322 columns V and W; or (n) a nucleic acid construct encoding a Defense System Xb comprising at least two different polypeptide components selected from a JetA^(ii) polypeptide comprising a pfam09660 domain or a DUF2397 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns J and K; a JetB^(ii) polypeptide comprising a pfam09661 domain or a DUF2398 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns N and O; a JetC^(ii) polypeptide comprising a pfam13558 domain comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns R and S; and a JetD^(ii) polypeptide comprising a pfam11796 domain or a DUF3323 domain or a pfam09664 domain or a DUF2399 domain or a combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2323-2844 columns V and W; or (o) a nucleic acid construct encoding a Defense System Xc comprising at least two different polypeptide components selected from a JetA^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns J and K; a JetB^(iii) polypeptide comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns N and O; a JetC^(iii) polypeptide comprising a COG1196 domain or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns R and S; and a JetD^(iii) polypeptide comprising a pfam09983 domain or a pfam09664 domain or a DUF2220 or a DUF2399 domain or any combination thereof, or comprising an amino acid sequence having at least 80% identity to a sequence selected from the group referenced in Table 11 rows 2845-3174 columns V and W; or (p) any combination of nucleic acid constructs encoding a Defense Systems Ia-Xc (a)-(o); wherein each nucleic acid construct of each Defense System (a)-(o) further comprises a regulatory element operably linked to said construct comprising a cis-acting regulatory element for directing expression of said nucleic acid sequence, or a transmissible element for directing transfer of said nucleic acid sequence from one cell to another, or a recombination element for integrating said nucleic acid sequence into a genome of a cell transfected with said construct, or an element providing episomal maintenance of said construct within a cell transfected with said construct, or any combination thereof.
 12. The nucleic acid construct of claim 11, wherein said expressed defense system comprises (a) a Defense System IV comprising the HamA polypeptide, and the HamB polypeptide; or (b) a Defense System Ia comprising the ZorA polypeptide, the ZorB polypeptide, the ZorC polypeptide, and the ZorD polypeptide; or (c) a Defense System Ib comprising the ZorA polypeptide, the ZorB polypeptide, and the ZorE polypeptide; or (d) a Defense System II comprising the ThsA polypeptide, and the ThsB polypeptide; or (e) a Defense System IIIa comprising the DruA polypeptide, the DruB polypeptide, the DruC polypeptide, the DruD polypeptide, and the DruE polypeptide; or (f) a Defense System IIIb comprising the Drug polypeptide, the DruF polypeptide, the DruG polypeptide, and the DruE polypeptide; or (g) a Defense System IIIc comprising the DruH polypeptide and the DruE polypeptide; or (h) a Defense System V comprising the SduA polypeptide; or (i) a Defense System VI comprising the GajA polypeptide and the GajB polypeptide; or (j) a Defense System VII comprising the PtuA polypeptide and the PtuB polypeptide; or (k) a Defense System VIII comprising the LmuA polypeptide and the LmuB polypeptide; or (l) a Defense System IX comprising the KwaA polypeptide and the KwaB polypeptide; or (m) a Defense System Xa comprising the JetA polypeptide, the JetB polypeptide, the JetC polypeptide, and the JetD polypeptide; or (n) a Defense System Xb comprising the JetA^(ii) polypeptide, the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the JetD^(ii) polypeptide; or (o) a Defense System Xc comprising the JetA^(iii) polypeptide, the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the JetD^(iii) polypeptide.
 13. The nucleic acid construct of claim 11, wherein (a) said Defense System IV is encoded by a nucleic acid sequence selected from the group referenced in Table 12, rows 2-1782, columns G, P, and Q or the nucleic acid sequence set forth in SEQ ID NO: 4; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the HamA polypeptide and HamB polypeptide recited in claim 4; (b) said Defense System Ia is encoded by, a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1174 columns G, AD, and AE or the nucleic acid sequence set forth in SEQ ID NO: 14; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the ZorA polypeptide, the ZorB polypeptide, the ZorC polypeptide, and ZorD polypeptide recited in claim 4; (c) said Defense System Ib is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 1175-1830 columns G, AD, and AE or set forth in SEQ ID NO: 15; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the ZorA polypeptide, the ZorB polypeptide, and ZorE polypeptide recited in claim 4; (d) said Defense System II is encoded by a nucleic acid sequence selected from the group referenced in Table 9 rows 2-2100 columns G, AG, and AH or set forth in the nucleic acid sequence set forth in SEQ ID NO: 10 or SEQ ID NO: 11; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the ThsA polypeptide and the ThsB polypeptide recited in claim 4; (e) said Defense System IIIa is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns G, AT, and AU or set forth in SEQ ID NO: 16; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the DruA polypeptide, the DruB polypeptide, the DruC, the DruD, and the DruE polypeptide recited in claim 4; (f) said Defense System IIIb is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns G, AT, AU; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the DruM polypeptide, the DruF polypeptide, the DruG polypeptide, and the DruE polypeptide recited in claim 4; (g) said Defense System IIIc is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 296-1343 columns G, AT, and AU; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the DruH polypeptide and the DruE polypeptide recited in claim 4; (h) said Defense System V is encoded by a nucleic acid sequence selected from the group referenced in Table 13; rows 2-1247, columns H and J; or a nucleic acid sequence encoding the SduA polypeptide of claim 1 and claim 4; (i) said Defense System VI is encoded by a nucleic acid sequence selected from the group referenced in Table 14, rows 2-4599, columns G, P, and Q or the sequences set forth in SEQ ID NO: 5 and SEQ ID NO: 6; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the GajA polypeptide and the GajB polypeptide recited in claim 4; (j) said Defense System VII is encoded by a nucleic acid sequence selected from the group referenced in Table 15, rows 2-2507, columns G, P, and Q or the sequences set forth in SEQ ID NO: 12 and SEQ ID NO: 13; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the Ptu polypeptide and the PtuB polypeptide recited in claim 4; (k) said Defense System VIII is encoded by a nucleic acid sequence selected from the group referenced in Table 16, rows 2-698, columns G, P, and Q or the sequences set forth in SEQ ID NO: 7 and SEQ ID NO: 8; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the LmuA polypeptide and LmuB polypeptide recited in claim 4; (l) said Defense System IX is encoded by a nucleic acid sequence selected from the group referenced in Table 17, rows 2-935, columns G, P, and Q or the sequence set forth in SEQ ID NO: 3; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the KwaA polypeptide and the KwaB polypeptide recited in claim 4; (m) said Defense System Xa is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns G, Z, and AA or the sequence set forth in SEQ ID NO: 17; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the JetA polypeptide, the JetB polypeptide, the JetC polypeptide, and the JetD polypeptide recited in claim 4; (n) said Defense System Xb is encoded by a nucleic acid sequence having at least 80% homology to a sequence selected from the group referenced in Table 11, rows 2323-2844, columns G, Z, and AA or the sequence set forth in SEQ ID NO: 18; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the JetA^(ii) polypeptide, the JetB^(ii) polypeptide, the JetC^(ii) polypeptide, and the JetD^(ii) polypeptide recited in claim 4; (o) said Defense System Xc is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns G, Z, and AA or the sequence set forth in SEQ ID NO: 19; or a nucleic acid sequence encoding the at least two different polypeptide sequences recited in claim 1; or a nucleic acid sequence encoding the JetA^(iii) polypeptide, the JetB^(iii) polypeptide, the JetC^(iii) polypeptide, and the JetD^(iii) polypeptide recited in claim
 4. 14. The nucleic acid construct of claim 11, wherein (a) said HamA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 12, rows 2-1782, columns H and J, or said HamB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 12, rows 2-1782, columns L and N, or a combination thereof; (b) said ZorA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1830 columns J and L, said ZorB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1830 columns N and P, said ZorC polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1174 columns R and T, or said ZorD polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1174 columns V and X, or a combination thereof; (c) said ZorA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 2-1830 columns J and L, said ZorB polypeptide is encoded by a nucleic acid sequence selected from the group Table 8 rows 2-1830 columns N and P, said ZorE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 8 rows 1175-1830 columns Z and AB, or a combination thereof; (d) said ThsA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 9 rows 2-2100 columns I and K, said ThsB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 9 rows 2-2100 columns M and O, Q and S, U and W, Y and AA, and AC and AE, or a combination thereof; (e) said DruA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns J and L, or said DruB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns N and P, or said DruC polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns R and T, or said DruD polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-123 columns V and X, or said DruE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AB, or a combination thereof; (f) said DruM polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns AD and AF, or said DruF polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns AH and AJ, or said DruG polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 124-295 columns AL and AN, or said DruE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AB, or a combination thereof; (g) said DruH polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 296-1343 columns AP and AR, or said DruE polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 10 rows 2-1343 columns Z and AB, or a combination thereof; (h) said SduA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 13; rows 2-1247, columns H and J; (i) said GajA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 14, rows 2-4599, columns H and J, or said GajB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 14, rows 2-4599, columns L and N; or a combination thereof; (j) said PtuA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 15, rows 2-2507, columns H and J, or said PtuB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 15, rows 2-2507, columns L and N, or a combination thereof; (k) said LmuA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 16, rows 2-698, columns H and J, or said LmuB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 16, rows 2-698, columns L and N, or a combination thereof; (l) said KwaA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 17, rows 2-935, columns H and J, or said KwaB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 17, rows 2-935, columns L and N, or a combination thereof; (m) said JetA polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns J and L, or said JetB polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322; columns N and P, or said JetC polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns R and T, or said JetD polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2-2322, columns V and X, or a combination thereof; (n) said JetA^(ii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2323-2844, columns J and L, or said JetB^(ii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2323-2844, columns N and P, or said JetC^(ii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2323-2844, columns R and T, or said JetD^(ii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2323-2844, columns V and X, or a combination thereof; (o) said JetA^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, column J and L, or said JetB^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns N and O, or said JetC^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns R and T, or said JetD^(iii) polypeptide is encoded by a nucleic acid sequence selected from the group referenced in Table 11, rows 2845-3174, columns V and X, or a combination thereof.
 15. The nucleic acid construct of claim 11, wherein expression of said defense system in a host cells provides the host cell with resistance to foreign nucleic acid invasion.
 16. The nucleic acid construct of claim 15, wherein said resistance to foreign nucleic acid invasion comprises resistance to at least one phage infection, or resistance to plasmid transformation, or resistance to entry of a conjugation element, or any combination thereof
 17. A transmissible genetic element or an expression vector comprising the nucleic acid construct of claim
 1. 18. An isolated cell expressing a nucleic acid construct of claim
 1. 19. The isolated cell of claim 18, wherein said cell comprises a gram-positive bacterium or a gram-negative bacterium.
 20. The isolated cell of claim 18, wherein said cell comprises resistance to foreign nucleic acid invasion.
 21. The isolated cell of claim 20, wherein resistance to foreign nucleic acid invasion comprises resistance to at least one phage infection, or reduced plasmid transformation efficiency, or resistance to entry of a conjugation element, or a combination thereof.
 22. A food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product, and or a veterinary product comprising the defense system of any one of claims 7-10, or the nucleic acid construct of any one of claims 11-16, or the transmissible genetic element of claim 17, or the isolated cell of any one of claims 18-21.
 23. The food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product, and or a veterinary product of claim 22, wherein said defense system comprises a combination of Defense Systems selected from Defense Systems Ia-Xc (a)-(o).
 24. A method of preparing a food, a food additive, a feed, a nutritional supplements, a probiotic supplement, a personal care product, a health care product or a veterinary product, the method comprising adding to the food, food additive, feed, nutritional supplement, probiotic supplement, personal care product, health care product, or veterinary product at least one defense system of any one of claims 7-10, or the nucleic acid construct of any one of claims 11-16, or the transmissible genetic element of claim 17, or the isolated cell of any one of claims 18-21.
 25. A method for identifying a defense system in a prokaryotic cell, comprising the steps of: (a) selecting, in-silico, a family of genes that are preferentially located in close proximity to a known defense-related gene family present in a plurality of prokaryotic genomes; and (b) analyzing, in-silico, the DNA upstream and downstream of said gene; and (c) identifying, in-silico, a cassette of genes within the upstream and downstream DNA analyzed in step (b) comprising said gene of step (a), wherein said cassette of genes has conserved synteny in said plurality of prokaryotic genomes.
 26. The method of claim 25, wherein the gene of step (a), located in close proximity to a known defense related gene family, is within 10 genes upstream and or 10 genes downstream of the known defense related gene family.
 27. A method gene editing; said method comprising contacting a nucleic acid sequence comprising a gene to be edited with at least one polypeptide component of a defense system, wherein said defense system component comprises a component selected from the defense system of claim 7; where said method results in the gene being edited. 